/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/GROUPS/tags/96502088:	LBL News Magazine, Vol. 1, No. 1, Summer 1976, p.6 | Edward Lofgren in Bevalac: An intimate perspective 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/GROUPS/tags/96502093:	LBL News Magazine, Vol. 2, No. 1, Spring 1977, p.19|Blueprints for nature: Particle theorists exchange ideas at informal weekly seminar. Chanowitz left seated; Chew right 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/GROUPS/tags/96602509:	LBL NEWS Magazine, Vol. 6, No. 3, Fall 1981,  p. 1 |  UC's Office for History of Science and Technology is housed, appropriately enough, in Steghens Hall, a charming survivor of the older and more gracious school of academic architecture at Berkeley. Above, project director John Heilbron (at right), discusses the LBL history project with his collaborators Bob Seidel (left) and Bruce Wheaton. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/GROUPS/tags/96602524:	LBL NEWS Magazine, Vol. 6, No. 3, Fall 1981,  p. 13 | Early cyclotroneers (left to right): J. J. Livingood, F. Exner, M. S. Livingston, D. Sloan, Lawrence, M. White, W. Coates, L. J. Laslett, T. Lucci. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/GROUPS/tags/96602525:	LBL NEWS Magazine, Vol. 6, No. 3, Fall 1981,  p. 14 | The Laboratory's scientific and technical staff arranged within and on top of the magnet of the 60-inch cyclotron, 1939. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/GROUPS/tags/96602529:	LBL NEWS Magazine, Vol. 6, No. 3, Fall 1981,  p. 16 |  From left to right, F. Kurie, D. Cooksey, E. McMillan, Lawrence, and R. Thornton encouraging a beam in the 27-inch cyclotron. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/GROUPS/tags/96602531:	LBL NEWS Magazine, Vol. 6, No. 3, Fall 1981,  p. 19 | Participants at seventh Solvay congress in Brussels, Belgium, in October, 1933. Lawrence is standing second from right; Rutherford is sitting sixth from right, Chadwick on far right; Bohr third from left; Heisenberg stands fourth from left, and Cockcroft fifth from right. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/GROUPS/tags/96602750:	LBL NEWS Magazine, Vol. 6, No. 3, Fall 1981,  p. 28 |  Rad Lab camaraderie found a social outlet at Di Biasi's restaurant in Albany. Back row, left to right, standing: Bob Cornog, Ernest Lawrence, Luis Alvarez, Molly Lawrence, Emilio Segre; second row: Jerry Alvarez (seated), Betty Thornton, Paul Aebersold (standing), Iva Dee Hiatt, Edwin McMillan, Bill Farley; first row: Donald Cooksey, Robert Thornton, and one unidentified celebrant. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/GROUPS/tags/96602752:	LBL NEWS Magazine, Vol. 6, No. 3, Fall 1981,  p. 29 | Posing with the newly completed 60-inch cyclotron in the Crocker laboratory are, left to right, D. Cooksey D. Corson, Lawrence, R. Thornton, J. Backus, and W. Salisbury, and, on top L. Alvarez and E. McMillan. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/GROUPS/tags/96602754:	LBL NEWS Magazine, Vol. 6, No. 3, Fall 1981,  p. 30 | Lawrence encourages Lab workers during World War II. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/GROUPS/tags/96602756:	LBL NEWS Magazine, Vol. 6, No. 3, Fall 1981,  p. 31 | Tennessee Eastman officials and General Leslie R. Groves with Lawrence at the magnet for the 184-inch cyclotron in 1943. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/GROUPS/tags/96602757:	LBL NEWS Magazine, Vol. 6, No. 3, Fall 1981,  p. 32 | S-1 Committee at Bohemian Grove, September 13, 1942. Left to right: Harold C. Urey, Lawrence, James B. Conant, Lyman J. Briggs, E.V. Murphee, and A. H. Compton. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/GROUPS/tags/96602768:	LBL News, Vol.6, No.3, Fall 1981, p.44 | Machine shop crew at the Laboratory during World War II. || LBL NEWS Magazine, Vol. 6, No. 3, Fall 1981,  p. 44
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/GROUPS/tags/96602772:	LBL News, Vol.6, No.3, Fall 1981 |  In 1945-46, the 184-inch was converted from a calutron to a synchrocyclotron; Lawrence and staff posed with the magnet. || LBL NEWS Magazine, Vol. 6, No. 3, Fall 1981,  p. 47
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/GROUPS/tags/96602884:	LBL NEWS Magazine, Fall 1981, No. 3, p. 52 | The 184-inch cyclotron operated for the first time on November 1, 1946.  In the foreground, left to right, are Thornton, Lawrence, McMillan, and James Vale. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/GROUPS/tags/96602898:	LBL NEWS Magazine, Vol. 6, No. 3, Fall 1981,  p. 62
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/GROUPS/tags/96602954:	LBL News, Vol.6, No.3, Fall 1981, p. 77 | Lawrence, Brobeck, Harold Fidler, and Donald Cooksey in the aperture of a Bevatron magnet section, 1950. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/GROUPS/tags/96602969:	LBL News, Vol.6, No.3, Fall 1981 p. 85 | Surrounding Edward Lofgren (center) are discoverers of the anti-proton (left to right) Emilio Segre, Clyde Wiegand, Owen Chamberlain, and Thomas Ypsilantis. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/GROUPS/tags/96602980:	LBL NEWS Magazine, Vol. 6, No. 3, Fall 1981,  p. 90 | From left to right: H.P. Hernandez, McMillan, L. W. Alvarez, and J.D. Gow, standing before the 72-inch bubble chamber. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/GROUPS/tags/96703043:	LBL NEWS Magazine, Vol.6, No.3, Fall 1981, p. 97 | Lunch during the International Conference on High Energy Physics, 1966. Left to right: McMillan, Val Fitch, Murray Gell Mann, Victor Weisskopf, Geoffrey Chew, and Sidney Drell. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/GROUPS/tags/96703133:	LBL NEWS Magazine, Vol. 2, No. 3, Fall 1977, p. 9 Dr. Calvin with well-wishers at a party celebrating his Priestley Medal 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/GROUPS/tags/96703137:	LBL NEWS Magazine, Vol. 4, No. 3, Fall 1979, p. 37.  Staff of the 60-inch cyclotron in September, 1938. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/GROUPS/tags/96703218:	LBL Research Review, Vol. 18, No. 1, Spring 1993, p.11|A staff of more than 100 people worked to bring the ALS from conception to completion. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/GROUPS/tags/97200639:	Magnet, Vol. 13, Nos. 7/8, July/Aug 1969, p. 9
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/GROUPS/tags/97200642:	Magnet, Vol. 14, No. 5, May 1970, p. 3
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/GROUPS/tags/97200644:	Magnet, Vol. 14, No. 6, June 1970, p. 6
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/GROUPS/tags/97300773:	Magnet, Vol. 2, No. 1, January 1958
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/GROUPS/tags/97300774:	Magnet, Vol. 2, No. 1, January 1958, p. 6 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/GROUPS/tags/97300775:	Magnet, Vol. 2, No. 3, December 1958, p. 7
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/GROUPS/tags/97300782:	Magnet, Vol. 5, No. 1, January, 1961, p. 3 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/GROUPS/tags/97300786:	Magnet, Vol. 5, No. 5, May, 1961. p. 2
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/GROUPS/tags/97300788:	Magnet, Vol. 5, No. 6, June 1961
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/GROUPS/tags/97300795:	Magnet, Vol. 7, No. 3, March 1963, p.8
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/GROUPS/tags/97300896:	Magnet, Vol. 8, No. 12, December 1964, p. 8
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/GROUPS/tags/97300897:	Magnet, Vol. 8, No. 12, December 1964, p. 9
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/GROUPS/tags/97300901:	Magnet, Vol. 9, No. 7, July, 1965, p. 8
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/GROUPS/tags/97300912:	Magnet, Vol. 12, No. 3, March 1968, p. 3
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/GROUPS/tags/97401615:	Magnet, Vol. 14, No. 6, June 1970, p. 7
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/GROUPS/tags/97401810:	Magnet, Vol. 12, No. 11, November 1968 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/GROUPS/tags/97401934:	Magnet, Vol. 14, Nos. 7-8, July-August 1970, p. 2 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/GROUPS/tags/97401935:	Magnet, Vol. 14, Nos. 7-8, July-August 1970, p. 7
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/GROUPS/tags/97401936:	Magnet, Vol. 14, Nos. 7-8, July-August 1970, p. 7
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/GROUPS/tags/97401937:	Magnet, Vol. 14, Nos. 7-8, July-August 1970, p. 7
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/GROUPS/tags/97401939:	Magnet, Vol. 14, No. 9, September 1970, p. 3
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/GROUPS/tags/97401941:	Magnet, Vol. 14, No. 9, September 1970, p. 4
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/GROUPS/tags/97401943:	Magnet, Vol. 14, No. 9, September 1970, p. 5
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/GROUPS/tags/97401945:	Magnet, Vol. 15, No. 3, March 1971, p. 4
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/GROUPS/tags/97502066:	Magnet, Vol. 15, No. 6, June 1971, p. 5
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/GROUPS/tags/97502068:	Magnet, Vol. 15, Nos. 7-8, July-August 1971, p. 3
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/GROUPS/tags/97502069:	Magnet, Vol. 15, Nos. 7-8, July-August 1971, p. 5
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/GROUPS/tags/97502071:	Magnet, Vol. 15, Nos. 10-11, October-November 1971, p. 8 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/GROUPS/tags/97502074:	Magnet, Vol. 16, No. 10, October 1972, p. 2
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/GROUPS/tags/97502075:	Magnet, Vol. 17, No. 4, April 1973, p. 2
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/GROUPS/tags/97502087:	Magnet, Vol. 17, No. 9,  September 1973, p. 6
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/GROUPS/tags/XBB_678-4751:	LBL News, Vol.6, No.3, Fall 1981 |  Lawrence lunching with future President Eisenhower and past President Hoover at Bohemian Grove, July 23, 1950. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/INDIVIDUALS/tags/1976Fall_pg2_Alvarez:	LBL NEWS Magazine, Fall 1976, Vol. 1, No. 2, p 2 | Luis Alvarez 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/INDIVIDUALS/tags/1976Fall_pg2_Seaborg:	LBL NEWS Magazine, Fall 1976, Vol. 1, No. 2, p. 2 | Glenn Seaborg 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/INDIVIDUALS/tags/1977Winter_pg21_McMillan:	LBL NEWS Magazine, Winter 1977-78, Vol. 2, No. 4, p 21 | Ed McMillan and blackboard announcing Ernest Lawrence's Nobel Prize. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/INDIVIDUALS/tags/1977Winter_pg21_McMillanLofgrenSeaborg:	LBL NEWS Magazine, Winter 1977-78, Vol. 2, No. 4, p. 21 | Time warp recreates LBL's 27-inch cyclotron and several of the young scientists who worked on it: left to right, Ed McMillan, Ed Lofgren, Glenn Seaborg. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/INDIVIDUALS/tags/96502089:	LBL News Magazine, Vol. 1, No. 2, Fall 1976, cover,  Ernest O. Lawrence and Jesse W. Beams at Yale 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/INDIVIDUALS/tags/96502090:	LBL News Magazine, Vol. 1, No. 2, Fall 1976, p. 2 | Melvin Calvin, Nobel Laureate, chemistry, 1961 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/INDIVIDUALS/tags/96502091:	LBL News Magazine, Vol. 1, No. 2, Fall 1976, p. 2.Dr. Owen Chamberlain, Nobel laureate, physics (antiproton), in 1959. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/INDIVIDUALS/tags/96502092:	LBL News Magazine, Vol. 1, No. 2, Fall 1976, p. 2 | Emilio Segre with 25 volumes of research publication, specific interest in Zeeman pattern. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/INDIVIDUALS/tags/96602508:	LBL NEWS Magazine, Vol. 6, No. 3, Fall 1981, p. 1. Lab photographer Doug McWilliams to take the color photograph of the 184-Inch Cyclotron, the Laboratory, and the view beyond that is featured on the cover of LBL Newsmagazine (historical issue). 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/INDIVIDUALS/tags/96602511:	LBL NEWS Magazine, Vol. 6, No. 3, Fall 1981,  p. 6 | Ernest Lawrence about the time he came to the University of California. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/INDIVIDUALS/tags/96602521:	LBL NEWS Magazine, Vol. 6, No. 3, Fall 1981,  p. 11 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/INDIVIDUALS/tags/96602530:	LBL NEWS Magazine, Vol. 6, No. 3, Fall 1981,  p. 17 |  Gilbert N. Lewis, the chemist who isolated heavy water and who was instrumental in bringing E. O. Lawrence to Berkeley. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/INDIVIDUALS/tags/96602533:	LBL NEWS Magazine, Vol. 6, No. 3, Fall 1981,  p. 22 | Luis Alvarez about 1938, just before his work leading to the identification of helium-3. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/INDIVIDUALS/tags/96602534:	LBL NEWS Magazine, Vol. 6, No. 3, Fall 1981,  p. 23 |  Milt White beside the 60-inch cyclotron with which Alvarez showed the stability of helium-3. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/INDIVIDUALS/tags/96602535:	LBL NEWS Magazine, Vol. 6, No. 3, Fall 1981,  p. 25 |  Joseph Hamilton drinking radiosodium, 1939; at right is R. Marshak. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/INDIVIDUALS/tags/96602745:	LBL NEWS Magazine, Vol. 6, No. 3, Fall 1981,  p. 26 | John Lawrence became interested in the biological effects of neotrons during a 1935 visit to Berkeley, and soon joined his brother's team. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/INDIVIDUALS/tags/96602751:	LBL NEWS Magazine, Vol. 6, No. 3, Fall 1981,  p. 29 | Ernest Lawrence at the controls of the 37- inch cyclotron, about 1938. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/INDIVIDUALS/tags/96602758:	LBL NEWS Magazine, Vol. 6, No. 3, Fall 1981,  p. 33 |  Lawrence slumps in his chair from fatigue during calutron test. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/INDIVIDUALS/tags/96602760:	LBL NEWS Magazine, Vol. 6, No. 3, Fall 1981,  p. 37 . Frank Oppenheimer (center right) and Robert Thornton (right) examine the 4-source emitter for the improved alpha calutron. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/INDIVIDUALS/tags/96602762:	LBL NEWS Magazine, Vol. 6, No. 3, Fall 1981,  p. 42 | McMillan recreating the search for neptunium at the time of the announcement of the discovery, June 8, 1940. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/INDIVIDUALS/tags/96602763:	LBL NEWS Magazine, Vol. 6, No. 3, Fall 1981,  p. 42  |  Glenn Seaborg adjusts a Geiger-Muller counter during search for plutonium at the Laboratory. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/INDIVIDUALS/tags/96602766:	LBL NEWS Magazine, Vol. 6, No. 3, Fall 1981,  p. 44 | Lawrence challenged by Laboratory security guard at wartime Laboratory. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/INDIVIDUALS/tags/96602767:	LBL NEWS Magazine, Vol. 6, No. 3, Fall 1981,  p. 44 | J. Robert Oppenheimer 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/INDIVIDUALS/tags/96602770:	LBL NEWS Magazine, Fall 1981, No. 3., p. 45 | General Groves and UC President Sproul admire the Medal for Merit awarded Lawrence in March, 1946 for wartime achievements of the Laboratory. || LBL NEWS Magazine, Vol. 6, No. 3, Fall 1981,  p. 45
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/INDIVIDUALS/tags/96602773:	LBL NEWS Magazine, Vol.6, No.3, Fall 1981, p. 48 |  Nuclear chemistry prospered in the postwar era, with the discovery of several new elements by the team including Seaborg (left) and Albert Ghiorso.
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/INDIVIDUALS/tags/96602880:	LBL NEWS Magazine, Vol.6, No.3, Fall 1981, p. 50 |  Melvin Calvin shown with some of the apparatus he used to study the role of carbon in photosynthesis.  
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/INDIVIDUALS/tags/96602882:	LBL NEWS Magazine, No. 3, p 51, Fall 1981, p. 51 | The principle of phase stability--basic to the 184- inch cyclotron and the electron synchrotron and their successors--is explained by its author Edwin McMillan.  
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/INDIVIDUALS/tags/96602883:	LBL NEWS, Vol.6, No.3, Fall 1981, p. 52 |  Vannevar Bush (left) and Arthur H. Compton at Del Monte Lodge, 1948. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/INDIVIDUALS/tags/96602894:	LBL NEWS Magazine, Vol. 6, No. 3, Fall 1981,  p. 58 Robert Serber,      Laboratory theorist, writing for a photographer shortly after the      announcement of the discovery of machine-made mesons by      Gardner and Lattes in February, 1948.  
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/INDIVIDUALS/tags/96602895:	LBL NEWS Magazine, Vol.6, No.3, Fall 1981 | Wolfgang "Pief" Panofsky collaborated with Alvarez on the proton linac and built SLAC, still the world's most powerful electron accelerator and home of PEP. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/INDIVIDUALS/tags/96602896:	LBL NEWS Magazine, Vol.6, No.3, Fall 1981, Fall 1981| C.M.G. Lattes (left) and E. Gardner with the nuclear emulsion positioning apparatus for the 184-inch cyclotron. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/INDIVIDUALS/tags/96602976:	LBL NEWS Magazine, Vol. 6, No. 3, Fall 1981,  p. 87 | Bubble-chamber inventor Donald Glaser examines a xenon chamber built at LBL in the early 1960's. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/INDIVIDUALS/tags/96602978:	LBL News, Vol.6, No.3, Fall 1981, p. 88 |  Luis Alvarez with Berkeley-built bubble chambers. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/INDIVIDUALS/tags/96703042:	LBL NEWS Magazine, Fall 1981, No. 3, p. 96 | Wilson Powell (on ladder) with his propane bubble chamber.  
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/INDIVIDUALS/tags/96703046:	LBL News, Vol.6, No.3, Fall 1981, p. 97| Physicist Angelina Galtieri consults log with operator in control room of the Bevatron. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/INDIVIDUALS/tags/96703047:	LBL NEWS Magazine, Vol. 6, No. 3, Fall 1981, p. 98 | Edwin McMillan became director of the Laboratory when Lawrence died in 1958. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/INDIVIDUALS/tags/96703048:	LBL News, Vol.6, No.3, Fall 1981, p. 98 |  Andrew Sessler, director from 1973 to 1980, widened the Laboratory's research interests to include energy and environment studies. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/INDIVIDUALS/tags/96703049:	LBL NEWS Magazine, Vol. 6, No. 3, Fall 1981,  p. 98 | David Shirley, formerly head of the Materials and Molecular Research Division, became Laboratory director in 1980. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/INDIVIDUALS/tags/96703132:	LBL NEWS Magazine, Vol. 2, No. 3, Fall 1977, p. 3 | David Judd is a theoretical physicist at LBL and a senior lecturer in UC Berkeley's physics department. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/INDIVIDUALS/tags/96703136:	LBL NEWS Magazine, Vol. 3, No. 1, Spring 1978, p. 25 | Johnston in lab: The issue is far from settled. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/INDIVIDUALS/tags/96703168:	LBL Research Review, Vol. 16, No. 1, Spring 1991, p. 15 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/INDIVIDUALS/tags/96703289:	LBL Research Review, Vol. 18, No. 3, August 1994, p. 8 | Glenn Seaborg points out seaborgium on the periodic table. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/INDIVIDUALS/tags/96703306:	Highlights 1994-1995, p. 24.  Researcher Tony Chen prepares to test prototype cathode material in a field emission test apparatus. LBL is collaborating with SI Diamond, Inc. to develop cathode materials for use in flat- panel displays. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/INDIVIDUALS/tags/96703307:	LBL Research Review, Vol. 10, No. 1, Spring 1985, p. 9. David A. Shirley, Director of Lawrence Berkeley Laboratory (1980-1989). 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/INDIVIDUALS/tags/96703318:	LBL Research Review, Vol. 11, No. 3, Fall 1986, p. 2.  Jack Bastacky at work at the Low-Temperature Scanning Electron Microscope. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/INDIVIDUALS/tags/96703332:	LBL Research Review, Vol. 11, No. 4, Winter 1986, p. 3 | Yuan Lee posed in front of his experimental apparatus shortly after the announcement of his Nobel Prize. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/INDIVIDUALS/tags/96703334:	LBL Research Review, Vol. 11, No. 4, Winter 1986, p. 11 | Emilio Segre at work in 1954. He and Owen Chamberlain shared the Nobel Prize in physics in 1959 for their discovery of the antiproton. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/INDIVIDUALS/tags/96703337:	LBL Research Review, Vol. 12, No. 1, Spring 1987, p.18 | Astrophysicist Rich Muller (posing with a model of Tyrannosaurus rex from the Lawrence Hall of Science in Berkeley) developed the Nemesis theory to explain the comet storms that have caused mass extinctions of life forms, including dinosaurs. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/INDIVIDUALS/tags/96703338:	LBL Research Review, Vol. 12, No. 1, Spring 1987, p.19 | At a limestone outcropping near Gubbio, Italy, physicist Luis Alvarez and his geologist son Walter, examined the clay layer that launched their theory of 'The Great Dying.' Surprisingly high concentrations of iridium in the clay at Gubbio and many other sites indicated that the mass extinction was the result of a collision between Earth and a huge extraterrestrial object. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/INDIVIDUALS/tags/96703339:	LBL Research Review, Vol. 12, No. 1, Spring 1987, p. 32 | Melissa Austin, Laura Glines and Ronald Krauss examine samples run in the gradient gel electrophoresis process they use to separate types of lipoproteins and determine their relative concentrations. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/INDIVIDUALS/tags/96703357:	LBL Research Review, Vol. 12, Nos. 3/4, Fall/Winter 1987, p. 40. Glenn Seaborg (left) and former President Lyndon Johnson have a private chat in the White House Oval Office. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/INDIVIDUALS/tags/96703451:	LBL Research Review, Vol. 14, No. 4, Winter 1989, p. 5.  Chemistry grad student Peng Wang, at work at his terminal, produced computer graphics for an article on enzymes. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/INDIVIDUALS/tags/96703494:	LBL Research Review, Vol. 15, Nos. 3/4, Fall/Winter 1990, p. 33 | Edwin M. McMillan, Nobel laureate, former director of LBL and professor emeritus of physics at the University of California at Berkeley, received the National Medal of Science, the nation's highest award for scientific achievement. The award was conferred at a White House ceremony November 13, 1990. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/INDIVIDUALS/tags/96703495:	LBL Research Review, Vol. 15, No. 2, Summer 1990, p. 33 | LBL physicist Gerson Goldhaber is the co- recipient of the 1991 W.K.H. Panofsky Prize of the American Physical Society. The prize, the APS's highest award for experimental particle physics, was awarded to Goldhaber and French physicist Francois Pierre for their discovery of charmed mesons in 1976. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/INDIVIDUALS/tags/97200637:	Magnet, Vol. 13, No. 4, April 1969, p. 2
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/INDIVIDUALS/tags/97200640:	Magnet, Vol. 13, No. 10, October 1969
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/INDIVIDUALS/tags/97200641:	Magnet, Vol. 14, No. 5, May 1970
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/INDIVIDUALS/tags/97200643:	Magnet, Vol. 14, No. 6, June 1970, p. 4
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/INDIVIDUALS/tags/97300772:	Magnet, Vol. 1, No. 2, December 1957, p. 3
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/INDIVIDUALS/tags/97300776:	Magnet, Vol. 2, No. 7, July 1958, p. 5 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/INDIVIDUALS/tags/97300777:	Magnet, Vol. 2, No. 11, November 1958, p. 4
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/INDIVIDUALS/tags/97300778:	Magnet, Vol. 2, No. 12, December 1958, p. 2
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/INDIVIDUALS/tags/97300779:	Magnet, Vol. 3, No. 2, February 1959, p. 4
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/INDIVIDUALS/tags/97300780:	Magnet, Vol. 3, No. 3, March, 1959, p. 4 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/INDIVIDUALS/tags/97300784:	Magnet, Vol. 5, No. 4, April, 1961 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/INDIVIDUALS/tags/97300790:	Magnet, Vol. 5, No. 12, December 1961, p. 2
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/INDIVIDUALS/tags/97300791:	Magnet, Vol. 6, No. 5, May 1962, p. 2
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/INDIVIDUALS/tags/97300792:	Magnet, Vol. 6, No. 5, May 1962, p. 2
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/INDIVIDUALS/tags/97300793:	Magnet, Vol. 6, No. 5, May 1962, p. 8
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/INDIVIDUALS/tags/97300794:	Magnet, Vol. 6, No. 8, August 1962, p. 2
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/INDIVIDUALS/tags/97300898:	Magnet, Vol. 9, No. 6, June 1965, p. 2
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/INDIVIDUALS/tags/97300899:	Magnet, Vol. 9, No. 6, June, 1965, p. 12
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/INDIVIDUALS/tags/97300900:	Magnet, Vol. 9, No. 7, July, 1965, p. 2
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/INDIVIDUALS/tags/97300902:	Magnet, Vol. 9, No. 8, August 1965, p. 3
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/INDIVIDUALS/tags/97300903:	Lawrence Berkeley Lab Magnet, Vol. 8, No. 4, April 1964, p. 2 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/INDIVIDUALS/tags/97300905:	Magnet, Vol. 10, No. 4, April 1966, p. 8
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/INDIVIDUALS/tags/97300906:	Magnet, Vol. 10, No. 7, July 1966, p. 8
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/INDIVIDUALS/tags/97300907:	Magnet, Vol. 11, No. 2, February 1967, p. 7
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/INDIVIDUALS/tags/97300908:	Magnet, Vol. 11, No. 4, April 1967, p. 2
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/INDIVIDUALS/tags/97300909:	Magnet, Vol. 11, No. 4, April 1967, p. 2
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/INDIVIDUALS/tags/97300910:	Magnet, Vol. 11, No. 6, June 1967, p. 2
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/INDIVIDUALS/tags/97300913:	Magnet, Vol. 12, No. 3, March 1968, p. 2
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/INDIVIDUALS/tags/97300914:	Magnet, Vol. 12, No. 4, April 1968, p. 6
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/INDIVIDUALS/tags/97300915:	Magnet, Vol. 12, No. 4, April 1968, p. 6
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/INDIVIDUALS/tags/97300916:	Magnet, Vol. 12, Nos. 7-8, July-August 1968, p. 2
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/INDIVIDUALS/tags/97300917:	Magnet, Vol. 12, No. 9, September 1968, p. 2
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/INDIVIDUALS/tags/97401616:	Magnet, Vol. 14, No. 6, June 1970, p. 7
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/INDIVIDUALS/tags/97401617:	Magnet, Vol. 14, No. 6, June 1970, p. 8
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/INDIVIDUALS/tags/97401618:	Magnet, Vol. 14, No. 6, June 1970, p. 8
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/INDIVIDUALS/tags/97401619:	Magnet, Vol. 14, No. 6, June 1970, p. 9
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/INDIVIDUALS/tags/97401620:	Magnet, Vol. 14, No. 6, June 1970, p. 9
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/INDIVIDUALS/tags/97401621:	Magnet, Vol. 14, Nos. 7-8, July-August 1970, p. 2
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/INDIVIDUALS/tags/97401622:	Magnet, Vol. 14, Nos. 7-8, July-August 1970, p. 2
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/INDIVIDUALS/tags/97401813:	Magnet, Vol. 12, No. 12, December 1968, p. 11
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/INDIVIDUALS/tags/97401932:	Magnet, Vol. 14, Nos. 7-8, July-August 1970, p. 2
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/INDIVIDUALS/tags/97401933:	Magnet, Vol. 14, Nos. 7-8, July-August 1970, p. 2
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/INDIVIDUALS/tags/97401940:	Magnet, Vol. 14, No. 9, September 1970, p. 4
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/INDIVIDUALS/tags/97401942:	Magnet, Vol. 14, No. 9, September 1970, p. 5
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/INDIVIDUALS/tags/97401946:	Magnet, Vol. 15, No. 4-5, April-May1971, p. 6
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/INDIVIDUALS/tags/97401947:	Magnet, Vol. 15, No. 4-5, April-May 1971, p. 6
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/INDIVIDUALS/tags/97502067:	Magnet, Vol. 15, Nos. 7-8, July-August 1971
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/INDIVIDUALS/tags/97502070:	Magnet, Vol. 15, Nos. 7-8, July-August 1971, p. 8
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/INDIVIDUALS/tags/97502073:	Magnet, Vol. 16, No. 6, June 1972
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/INDIVIDUALS/tags/97502076:	Magnet, Vol. 17, Nos. 5-6,  May-June 1973, p. 3
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/INDIVIDUALS/tags/97502077:	Magnet, Vol. 17, Nos. 5-6,  May-June 1973, p. 5
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/INDIVIDUALS/tags/97502078:	Magnet, Vol. 17, Nos. 5-6,  May-June 1973, p. 5
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/INDIVIDUALS/tags/97502079:	Magnet, Vol. 17, Nos. 5-6,  May-June 1973, p. 5
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/INDIVIDUALS/tags/97502080:	Magnet, Vol. 17, Nos. 5-6,  May-June 1973, p. 5
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/INDIVIDUALS/tags/97502081:	Magnet, Vol. 17, Nos. 5-6,  May-June 1973, p. 5
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/INDIVIDUALS/tags/97502082:	Magnet, Vol. 17, Nos. 5-6,  May-June 1973, p. 5
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/INDIVIDUALS/tags/97502083:	Magnet, Vol. 17, Nos. 5-6,  May-June 1973, p. 7
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/INDIVIDUALS/tags/97502084:	Magnet, Vol. 17, No. 8,  August 1973, p. 5
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/INDIVIDUALS/tags/97502085:	Magnet, Vol. 17, No. 8,  August 1973, p. 5
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/INDIVIDUALS/tags/97502086:	Magnet, Vol. 17, No. 8,  August 1973, p. 5
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/INDIVIDUALS/tags/97502088:	Magnet, Vol. 17, Nos. 10-11,  October-November 1973, p. 6
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/INDIVIDUALS/tags/97502089:	Magnet, Vol. 18, No. 5, May 1974, p. 5
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/INDIVIDUALS/tags/97502093:	Magnet, Vol. 18, Nos. 7-8, July-August 1974, p. 3
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/INDIVIDUALS/tags/GPR_2151:	LBL News, Vol.6, No.3, Fall 1981 |  Laboratory physicist Denis Keefe with spark chambers developed in the 1960s for  particle identification. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/INDIVIDUALS/tags/XBB_7411-7687:	LBL News, Vol.6, No.3, Fall 1981 |   M. Stanley Livingston 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/INDIVIDUALS/tags/XBC_818-7744:	LBL News, Vol.6, No.3, Fall 1981 |  The Berkeley evening fog rolled away and the stars came out just long enough for Lab photographer Doug McWilliams to take the color photograph of the 184-inch cyclotron, the Laboratory, and the view beyond that is featured on the cover of this issue of the NEWSMAGAZINE. Doug hauled his cameras up the hill to a point midway between the cyclotron and the Lawrence Hall of Science to find this spectacular vantage point. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/INDIVIDUALS/tags/pg07_Cockcroft:	LBL News, Vol.6, No.3, Fall 1981 |  John Cockcroft 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/INDIVIDUALS/tags/pg07_Rutherford:	LBL News, Vol.6, No.3, Fall 1981 |  Ernest Rutherford at the Cavendish Laboratory. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/INDIVIDUALS/tags/pg07_Walton:	LBL News, Vol.6, No.3, Fall 1981 |  E.T.S. Walton 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/INDIVIDUALS/tags/pg08_CCLauritson:	LBL News, Vol.6, No.3, Fall 1981 |  C. C. Lauritsen and R. D. Bennet in the Caltech High Voltage Testing Laboratory at the control board of the high-voltage x-ray tube Lauritsen later redesigned as a particle accelerator. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/INDIVIDUALS/tags/pg08_Millikan:	LBL News, Vol.6, No.3, Fall 1981 |  Robert A. Millikan, shown here in 1935 with the Neher self- recording electroscope used in cosmic-ray studies. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/INDIVIDUALS/tags/pg09_Anderson:	LBL News, Vol.6, No.3, Fall 1981 |  Carl D. Anderson (left) and Millikan (right) on Pike's Peak, where Anderson found evidence for the mesotron in 1936. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/INDIVIDUALS/tags/pg17_Joliot:	LBL News, Vol.6, No.3, Fall 1981 |  Frederic Joliot and Irene Joliot-Curie in their laboratory at the Institut du Radium, Paris, ca. 1930. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/INDIVIDUALS/tags/pg20_lionsden:	LBL News, Vol.6, No.3, Fall 1981 |  "The lions den" of the Cavendish: Rutherford, foreground, with colleagues, Chadwick is at right. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/INDIVIDUALS/tags/pg24_fermi:	LBL News, Vol.6, No.3, Fall 1981 |  Enrico Fermi in Rome, mid-1930s 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/INDIVIDUALS/tags/pg25_segre:	LBL News, Vol.6, No.3, Fall 1981 |  Emilio Segre in the early 1930s. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/INDIVIDUALS/tags/pg50_gofman:	LBL News, Vol.6, No.3, Fall 1981 |  John Gofman initiated studies that led to the understanding of the effects of lipoproteins on cardiovascular disease. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/INDIVIDUALS/tags/pg53_anderson:	LBL News, Vol.6, No.3, Fall 1981 |  Cal Tech's Carl Anderson set off the search for the mesons with his discovery of a particle with the charge of the electron but a greater mass. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/INDIVIDUALS/tags/pg63_teller:	LBL News, Vol.6, No.3, Fall 1981 |  Edward Teller 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/INDIVIDUALS/tags/v6.3p78Lofgren:	LBL NEWS Magazine, Fall 1981, No. 3, p. 78 | Edward Lofgren, physicist in charge of the Bevatron, examines it with its designer and builder, William Brobeck. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/NOBEL-LAUREATES/tags/96703316:	LBL Research Review, Vol. 11, No. 2, Summer 1986, p. 24 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/NOBEL-LAUREATES/tags/96703317:	LBL Research Review, Vol. 11, No. 2, Summer 1986, p. 24 | resident Reagan presenting the National Medal of Science to Yuan Lee in a White House ceremony in March, 1986. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/NOBEL-LAUREATES/tags/96703333:	LBL Research Review, Vol. 11, No. 4, Winter 1986, p. 6 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/NOBEL-LAUREATES/tags/96703335:	LBL Research Review, Vol. 11, No. 4, Winter 1986, p. 11 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/NOBEL-LAUREATES/tags/96703362:	LBL Research Review, Vol. 13, No. 1, Spring 1988, p. 22 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/NOBEL-LAUREATES/tags/96703557:	8 x 10 neg 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/NOBEL-LAUREATES/tags/96904775:	Magnet Vol. 11, No. 7, July 1967, p. 1
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/NOBEL-LAUREATES/tags/97200638:	Magnet, Vol. 13, No. 5, May 1969, p. 5
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/NOBEL-LAUREATES/tags/97300781:	Magnet, Vol. 4, No. 11, November, 1960 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/NOBEL-LAUREATES/tags/97300785:	Magnet, Vol. 5, No. 5, May, 1961. p. 2 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/NOBEL-LAUREATES/tags/97300787:	Magnet, Vol. 5, No. 5, May, 1961. p. 2 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/NOBEL-LAUREATES/tags/97300789:	Magnet, Vol. 5, No. 11, November 1961
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/NOBEL-LAUREATES/tags/97300911:	Magnet, Vol. 12, No. 3, March 1968
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/NOBEL-LAUREATES/tags/97300918:	Magnet, Vol. 12, No. 11, November 1968
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/NOBEL-LAUREATES/tags/97300919:	Magnet, Vol. 12, No. 11, November 1968
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/NOBEL-LAUREATES/tags/97300920:	Magnet, Vol. 12, No. 11, November 1968
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/NOBEL-LAUREATES/tags/97401811:	Magnet, Vol. 12, No. 11, November 1968, p. 5
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/NOBEL-LAUREATES/tags/97401812:	Magnet, Vol. 12, No. 11, November 1968, p. 3
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/NOBEL-LAUREATES/tags/97401938:	Magnet, Vol. 14, No. 9, September 1970, p. 2
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/NOBEL-LAUREATES/tags/97401944:	Magnet, Vol. 14, Nos. 10-11, October-November 1970, p. 2
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/NOBEL-LAUREATES/tags/97502072:	Magnet, Vol. 16, No. 6, June 1972
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/VISITORS-AND-SPECIAL-EVENTS/tags/97502272:	Magnet, Vol.2, No.1, January 1958, p. 5
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/VISITORS-AND-SPECIAL-EVENTS/tags/97502273:	Magnet, Vol.2, No.1, January 1958, p. 5 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/VISITORS-AND-SPECIAL-EVENTS/tags/97502276:	Magnet, Vol.3, No.7, July 1959, p. 2
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/VISITORS-AND-SPECIAL-EVENTS/tags/97502277:	Magnet, Vol.3, No.8, August 1959, p. 3
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/VISITORS-AND-SPECIAL-EVENTS/tags/97502278:	Magnet, Vol.3, No.8, August 1959, p. 8
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/VISITORS-AND-SPECIAL-EVENTS/tags/97502279:	Magnet, Vol.3, No10, October 1959, p. 2
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/VISITORS-AND-SPECIAL-EVENTS/tags/97502280:	Magnet, Vol.3, No12, December 1959, p. 4
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/VISITORS-AND-SPECIAL-EVENTS/tags/97502284:	Magnet, Vol.4, No. 2, February 1960, p. 2
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/VISITORS-AND-SPECIAL-EVENTS/tags/97502285:	Magnet, Vol.4, No. 9, September 1960, p. 3
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/VISITORS-AND-SPECIAL-EVENTS/tags/97502286:	Magnet, Vol.4, No. 9, September 1960, p. 3
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/VISITORS-AND-SPECIAL-EVENTS/tags/97502287:	Magnet, Vol.4, No. 9, September 1960, p. 3
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/VISITORS-AND-SPECIAL-EVENTS/tags/97502288:	Magnet, Vol.4, No. 9, September 1960, p. 3
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/VISITORS-AND-SPECIAL-EVENTS/tags/97502289:	Magnet, Vol.4, No. 9, September 1960, p. 3
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/VISITORS-AND-SPECIAL-EVENTS/tags/97502290:	Magnet, Vol.4, No. 9, September 1960, p. 3
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/VISITORS-AND-SPECIAL-EVENTS/tags/97502305:	Magnet, Vol.5, No. 4, April 1961, p. 6
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/VISITORS-AND-SPECIAL-EVENTS/tags/97502306:	Magnet, Vol.5, No. 8, August 1961 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/VISITORS-AND-SPECIAL-EVENTS/tags/97502307:	Magnet, Vol.5, No. 10, October 1961
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/VISITORS-AND-SPECIAL-EVENTS/tags/97502308:	Magnet, Vol.5, No. 10, October 1961, p. 3
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/VISITORS-AND-SPECIAL-EVENTS/tags/97502309:	Magnet, Vol.6, No. 3, March 1962, p. 4
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/VISITORS-AND-SPECIAL-EVENTS/tags/97502310:	Magnet, Vol.6, No. 4, April 1962, p. 4-5
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/VISITORS-AND-SPECIAL-EVENTS/tags/97502311:	Magnet, Vol.6, No. 8, August 1962
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/VISITORS-AND-SPECIAL-EVENTS/tags/97502312:	Magnet, Vol.6, No. 12, December 1962, p. 3
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/VISITORS-AND-SPECIAL-EVENTS/tags/97502387:	Magnet, Vol.6, No. 12, December 1962, p. 3
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/VISITORS-AND-SPECIAL-EVENTS/tags/97502388:	Magnet, Vol.6, No. 12, December 1962, p. 4
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/VISITORS-AND-SPECIAL-EVENTS/tags/97502389:	Magnet, Vol.6, No. 12, December 1962, p. 7
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/VISITORS-AND-SPECIAL-EVENTS/tags/97502390:	Magnet, Vol.8, No. 2, February 1964 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/VISITORS-AND-SPECIAL-EVENTS/tags/97502391:	Magnet, Vol.8, No. 7, July 1964
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/VISITORS-AND-SPECIAL-EVENTS/tags/97502392:	Magnet, Vol.8, No. 7, July 1964, p. 7
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/VISITORS-AND-SPECIAL-EVENTS/tags/97502393:	Magnet, Vol.8, No. 7, July 1964, p. 7
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/VISITORS-AND-SPECIAL-EVENTS/tags/97502394:	Magnet, Vol.8, No. 7, July 1964, p. 7
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/VISITORS-AND-SPECIAL-EVENTS/tags/97502395:	Magnet, Vol.9, No. 5, May 1965, p. 12
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/VISITORS-AND-SPECIAL-EVENTS/tags/97502396:	Magnet, Vol.9, No. 10, October 1965, p. 4 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/VISITORS-AND-SPECIAL-EVENTS/tags/97502397:	Magnet, Vol.9, No. 12, December 1965
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/VISITORS-AND-SPECIAL-EVENTS/tags/97502398:	Magnet, Vol.9, No. 12, December 1965, p. 3 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/VISITORS-AND-SPECIAL-EVENTS/tags/97502399:	Magnet, Vol.9, No. 12, December 1965, p. 3 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/VISITORS-AND-SPECIAL-EVENTS/tags/97602403:	Magnet, Vol.10, No. 9, September1966, p. 6
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/VISITORS-AND-SPECIAL-EVENTS/tags/97602404:	Magnet, Vol.10, No. 9, September1966, p. 6
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/VISITORS-AND-SPECIAL-EVENTS/tags/97602405:	Magnet, Vol.10, No. 9, September1966, p. 7
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/VISITORS-AND-SPECIAL-EVENTS/tags/97602406:	Magnet, Vol.10, No. 9, September1966, p. 7
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/VISITORS-AND-SPECIAL-EVENTS/tags/97602407:	Magnet, Vol.10, No. 9, September1966, p. 7
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/VISITORS-AND-SPECIAL-EVENTS/tags/97602408:	Magnet, Vol.10, No. 9, September1966, p. 7
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/VISITORS-AND-SPECIAL-EVENTS/tags/97602409:	Magnet, Vol.10, No. 9, September1966, p. 7 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/VISITORS-AND-SPECIAL-EVENTS/tags/97602410:	Magnet, Vol.10, No. 12, December1966, p. 9 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/VISITORS-AND-SPECIAL-EVENTS/tags/97602498:	Magnet, Vol.11, No. 2, February 1967, p. 3
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/VISITORS-AND-SPECIAL-EVENTS/tags/97602499:	Magnet, Vol.11, No. 8, August 1967, p. 6
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/VISITORS-AND-SPECIAL-EVENTS/tags/97602500:	Magnet, Vol.12, No. 9, September 1968
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/VISITORS-AND-SPECIAL-EVENTS/tags/97602501:	Magnet, Vol.12, No. 9, September 1968, p. 7
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/VISITORS-AND-SPECIAL-EVENTS/tags/97602502:	Magnet, Vol.12, No. 12, December 1968, p. 9
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/VISITORS-AND-SPECIAL-EVENTS/tags/97602503:	Magnet, Vol.17, Nos. 10-11, October/November, 1973, p. 4
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/VISITORS-AND-SPECIAL-EVENTS/tags/97602504:	Magnet, Vol.17, Nos. 10-11, October/November, 1973, p. 5
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/VISITORS-AND-SPECIAL-EVENTS/tags/97602515:	Magnet, Vol.14, Nos. 3-4, March/April 1970
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/VISITORS-AND-SPECIAL-EVENTS/tags/97602516:	Magnet, Vol.14, Nos. 10-11, October/November 1970
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/VISITORS-AND-SPECIAL-EVENTS/tags/97602517:	Magnet, Vol.12, No. 12, December 1968, p. 9
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/VISITORS-AND-SPECIAL-EVENTS/tags/97602518:	Magnet, Vol.15, No. 12, December 1971, p. 5
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/VISITORS-AND-SPECIAL-EVENTS/tags/97602519:	Magnet, Vol.15, No. 12, December 1971, p. 5
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/VISITORS-AND-SPECIAL-EVENTS/tags/97602520:	Magnet, Vol.16, No. 10, October 1972, p. 6
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/VISITORS-AND-SPECIAL-EVENTS/tags/97602521:	Magnet, Vol.17, No. 1, January 1973 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/VISITORS-AND-SPECIAL-EVENTS/tags/97602726:	Magnet, Vol.6, No. 6, June 1962, p. 3
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/VISITORS-AND-SPECIAL-EVENTS/tags/97602739:	Magnet, Vol.9, No. 7, July 1965, p. 10
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/VISITORS-AND-SPECIAL-EVENTS/tags/97702850:	Magnet, Vol.12, No.6, June 1968, p. 8
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/VISITORS-AND-SPECIAL-EVENTS/tags/97702851:	Magnet, Vol.12, No.6, June 1968, p. 9
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PEOPLE/VISITORS-AND-SPECIAL-EVENTS/tags/97702852:	Magnet, Vol.12, No.6, June 1968, p. 9
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SITE-AND-FACILITIES/BUILDINGS/tags/96602512:	LBL NEWS Magazine, Vol. 6, No. 3, Fall 1981,  p. 6 |  The old Radiation Laboratory 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SITE-AND-FACILITIES/BUILDINGS/tags/96602897:	LBL NEWS Magazine, Vol.6, No.3, Fall 1981, p. 61 |  "Old Town"-the city of the 184-inch cyclotron-during the peaceful days after the war.  
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SITE-AND-FACILITIES/BUILDINGS/tags/97602596:	Magnet, Vol.3, No. 7, July 1959, p. 4 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SITE-AND-FACILITIES/BUILDINGS/tags/97602597:	Magnet, Vol.3, No. 7, July 1959, p. 5 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SITE-AND-FACILITIES/BUILDINGS/tags/97602600:	Magnet, Vol.4, No. 10, October 1960, p. 3 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SITE-AND-FACILITIES/BUILDINGS/tags/97602727:	Magnet, Vol.6, No. 10, October 1962, p. 10 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SITE-AND-FACILITIES/BUILDINGS/tags/97602729:	Magnet, Vol.7, No. 12, December 1963 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SITE-AND-FACILITIES/BUILDINGS/tags/97602731:	Magnet, Vol.8, No. 4, April 1964 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SITE-AND-FACILITIES/BUILDINGS/tags/97602732:	Magnet, Vol.8, No. 8, August 1964, p. 7
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SITE-AND-FACILITIES/BUILDINGS/tags/97702841:	Magnet, Vol.11, No.1, January 1967, p. 4
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SITE-AND-FACILITIES/BUILDINGS/tags/97702845:	Magnet, Vol.11, No.5, May 1967
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SITE-AND-FACILITIES/BUILDINGS/tags/97702891:	Magnet, Vol.16, No. 10, October 1972, p. 3 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SITE-AND-FACILITIES/BUILDINGS/tags/97702892:	Magnet, Vol.16, No. 10, October 1972, p. 3
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SITE-AND-FACILITIES/BUILDINGS/tags/97702893:	Magnet, Vol.16, No. 10, October 1972, p. 3 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SITE-AND-FACILITIES/LABS-SHOPS-OFFICES/tags/97602594:	Magnet, Vol.3, No. 7, July 1959, p. 5
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SITE-AND-FACILITIES/LABS-SHOPS-OFFICES/tags/97602595:	Magnet, Vol.3, No. 7, July 1959, p. 5 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SITE-AND-FACILITIES/LABS-SHOPS-OFFICES/tags/97602598:	Magnet, Vol.4, No. 9, September 1960, p. 5
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SITE-AND-FACILITIES/LABS-SHOPS-OFFICES/tags/97602599:	Magnet, Vol.4, No. 10, October 1960
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SITE-AND-FACILITIES/LABS-SHOPS-OFFICES/tags/97602602:	Magnet, Vol.4, No. 12, December 1960, p. 3 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SITE-AND-FACILITIES/LABS-SHOPS-OFFICES/tags/97602603:	Magnet, Vol.5, No. 3, March 1961, p. 4 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SITE-AND-FACILITIES/LABS-SHOPS-OFFICES/tags/97602604:	Magnet, Vol.5, No. 3, March 1961, p. 4
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SITE-AND-FACILITIES/LABS-SHOPS-OFFICES/tags/97602605:	Magnet, Vol.5, No. 3, March 1961, p. 5
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SITE-AND-FACILITIES/LABS-SHOPS-OFFICES/tags/97602606:	Magnet, Vol.5, No. 3, March 1961, p. 5
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SITE-AND-FACILITIES/LABS-SHOPS-OFFICES/tags/97602607:	Magnet, Vol.5, No. 3, March 1961, p. 5
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SITE-AND-FACILITIES/LABS-SHOPS-OFFICES/tags/97602608:	Magnet, Vol.5, No. 3, March 1961, p. 6
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SITE-AND-FACILITIES/LABS-SHOPS-OFFICES/tags/97602723:	Magnet, Vol.5, No. 6, June 1961, p. 4
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SITE-AND-FACILITIES/LABS-SHOPS-OFFICES/tags/97602725:	Magnet, Vol.5, No. 12, December 1961, p. 2 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SITE-AND-FACILITIES/LABS-SHOPS-OFFICES/tags/97602730:	Magnet, Vol.8, No. 1, January 1964
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SITE-AND-FACILITIES/LABS-SHOPS-OFFICES/tags/97602733:	Magnet, Vol.8, No. 8, August 1964, p. 7
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SITE-AND-FACILITIES/LABS-SHOPS-OFFICES/tags/97602734:	Magnet, Vol.8, No. 11, November 1964, p. 5 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SITE-AND-FACILITIES/LABS-SHOPS-OFFICES/tags/97602735:	Magnet, Vol.8, No. 12, December 1964 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SITE-AND-FACILITIES/LABS-SHOPS-OFFICES/tags/97602736:	Magnet, Vol.8, No. 12, December 1964, p. 12 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SITE-AND-FACILITIES/LABS-SHOPS-OFFICES/tags/97602737:	Magnet, Vol.8, No. 12, December 1964, p. 3 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SITE-AND-FACILITIES/LABS-SHOPS-OFFICES/tags/97602738:	Magnet, Vol.9, No. 7, July 1965, p. 6
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SITE-AND-FACILITIES/LABS-SHOPS-OFFICES/tags/97602740:	Magnet, Vol.9, No. 12, December 1965, p. 6 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SITE-AND-FACILITIES/LABS-SHOPS-OFFICES/tags/97602741:	Magnet, Vol.10, No. 1, January 1966
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SITE-AND-FACILITIES/LABS-SHOPS-OFFICES/tags/97602744:	Magnet, Vol.10, No. 12, December 1966, p. 6
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SITE-AND-FACILITIES/LABS-SHOPS-OFFICES/tags/97602745:	Magnet, Vol.10, No. 12, December 1966, p. 7
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SITE-AND-FACILITIES/LABS-SHOPS-OFFICES/tags/97702839:	Magnet, Vol.10, No.12, December 1966, p. 7
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SITE-AND-FACILITIES/LABS-SHOPS-OFFICES/tags/97702842:	Magnet, Vol.11, No.2, February 1967 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SITE-AND-FACILITIES/LABS-SHOPS-OFFICES/tags/97702843:	Magnet, Vol.11, No.2, February 1967, p. 5
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SITE-AND-FACILITIES/LABS-SHOPS-OFFICES/tags/97702844:	Magnet, Vol.11, No.3, March 1967, p. 7 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SITE-AND-FACILITIES/LABS-SHOPS-OFFICES/tags/97702847:	Magnet, Vol.11, No.5, May 1967, p. 4
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SITE-AND-FACILITIES/LABS-SHOPS-OFFICES/tags/97702849:	Magnet, Vol.12, No.4, April 1968, p. 3 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SITE-AND-FACILITIES/LABS-SHOPS-OFFICES/tags/97702881:	Magnet, Vol.15, No. 6, June 1971, p. 2
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SITE-AND-FACILITIES/LABS-SHOPS-OFFICES/tags/97702883:	Magnet, Vol.16, Nos. 1-2, January-February 1972, p. 3
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SITE-AND-FACILITIES/LABS-SHOPS-OFFICES/tags/97702889:	Magnet, Vol.16, No. 7, July 1972, p. 2
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SITE-AND-FACILITIES/LABS-SHOPS-OFFICES/tags/97702890:	Magnet, Vol.16, No. 9, September 1972 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SITE-AND-FACILITIES/LABS-SHOPS-OFFICES/tags/97702895:	Magnet, Vol.17, No. 7, July 1973, p. 2
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SITE-AND-FACILITIES/LABS-SHOPS-OFFICES/tags/97702896:	Magnet, Vol.17, No. 7, July 1973, p. 4
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SITE-AND-FACILITIES/LABS-SHOPS-OFFICES/tags/97702897:	Magnet, Vol.17, No. 7, July 1973, p. 4 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SITE-AND-FACILITIES/LABS-SHOPS-OFFICES/tags/97702898:	Magnet, Vol.17, No. 7, July 1973, p. 4
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SITE-AND-FACILITIES/LABS-SHOPS-OFFICES/tags/97702899:	Magnet, Vol.17, No. 7, July 1973, p. 5
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SITE-AND-FACILITIES/LABS-SHOPS-OFFICES/tags/97702900:	Magnet, Vol.17, No. 7, July 1973, p. 5 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SITE-AND-FACILITIES/LABS-SHOPS-OFFICES/tags/97702901:	Magnet, Vol.17, No. 7, July 1973, p. 5
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SITE-AND-FACILITIES/LABS-SHOPS-OFFICES/tags/97702902:	Magnet, Vol.17, No. 7, July 1973, p. 8
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SITE-AND-FACILITIES/LABS-SHOPS-OFFICES/tags/97702903:	Magnet, Vol.17, No. 9, September1973, p. 5
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SITE-AND-FACILITIES/LABS-SHOPS-OFFICES/tags/97702904:	Magnet, Vol.17, No. 9, September1973, p. 5
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SITE-AND-FACILITIES/LABS-SHOPS-OFFICES/tags/97702908:	Magnet, Vol.18, No. 2, February 1974, p. 5
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SITE-AND-FACILITIES/LABS-SHOPS-OFFICES/tags/97702910:	Magnet, Vol.18, Nos. 7-8, July-August 1974, p. 4 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SITE-AND-FACILITIES/LABS-SHOPS-OFFICES/tags/97702911:	Magnet, Vol.18, Nos. 7-8, July-August 1974, p. 4 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SITE-AND-FACILITIES/LABS-SHOPS-OFFICES/tags/97702912:	Magnet, Vol.18, Nos. 7-8, July-August 1974, p. 5 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SITE-AND-FACILITIES/LABS-SHOPS-OFFICES/tags/97702935:	Magnet, Vol.18, Nos. 7-8, July-August 1974, p. 5 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SITE-AND-FACILITIES/LABS-SHOPS-OFFICES/tags/97702936:	Magnet, Vol.18, Nos. 7-8, July-August 1974, p.5 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SITE-AND-FACILITIES/LABS-SHOPS-OFFICES/tags/97702937:	Magnet, Vol.19, No. 4, April 1975, p.7 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SITE-AND-FACILITIES/VIEWS/tags/96602507:	LBL NEWS Magazine, Vol. 6, No. 3, Fall 1981, cover 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SITE-AND-FACILITIES/VIEWS/tags/96602510:	LBL NEWS Magazine, Vol. 6, No. 3, Fall 1981, p. 4 | 184-Inch Cyclotron Wilson Tract. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SITE-AND-FACILITIES/VIEWS/tags/96602970:	LBL News, Vol.6, No.3, Fall 1981, p. 86 |  The Lab as it appeared about 1955. The Bevatron occupies the central round building, the 184-inch sits under the dome above that. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SITE-AND-FACILITIES/VIEWS/tags/96703059:	LBL News, Vol.6, No.3, Fall 1981, p. 101 |  The Bevalac link joins the SuperHilac (top of picture) to the Bevatron, allowing the accelerators to work together in a tandem mode known as the Bevalac. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SITE-AND-FACILITIES/VIEWS/tags/96703361:	LBL Research Review, Vol. 13, No. 1, Spring 1988, p. 21.  Lawrence Berkeley Laboratory is spread wide over the spectacular hillside site overlooking the UC campus. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SITE-AND-FACILITIES/VIEWS/tags/96703493:	LBL Research Review, Vol. 15, Nos. 3/4, Fall/Winter 1990, p. 2 | The dome that crowned the historic 184-Inch Cyclotron. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SITE-AND-FACILITIES/VIEWS/tags/97602742:	Magnet, Vol.10, No. 12, December 1966, p. 4
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SITE-AND-FACILITIES/VIEWS/tags/97602743:	Magnet, Vol.10, No. 12, December 1966, p. 4
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SITE-AND-FACILITIES/VIEWS/tags/97702854:	Magnet, Vol.12, No.12, December 1968, p. 12 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SITE-AND-FACILITIES/VIEWS/tags/97702876:	Magnet, Vol.13, No.5, May 1969, p. 9 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SITE-AND-FACILITIES/VIEWS/tags/97702878:	Magnet, Vol.15, Nos.1-2, January-February 1971, p. 3
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SITE-AND-FACILITIES/VIEWS/tags/97702879:	Magnet, Vol.15, Nos. 4-5, April-May 1971
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SITE-AND-FACILITIES/VIEWS/tags/97702880:	Magnet, Vol.15, No. 6, June 1971
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SITE-AND-FACILITIES/VIEWS/tags/97702882:	Magnet, Vol.15, No. 6, June 1971, p. 9
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SITE-AND-FACILITIES/VIEWS/tags/97702894:	Magnet, Vol.16, Nos. 11-12, November-December 1972
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SITE-AND-FACILITIES/VIEWS/tags/97702905:	Magnet, Vol.18, No. 2, February 1974 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SITE-AND-FACILITIES/VIEWS/tags/97702906:	Magnet, Vol.18, No. 2, February 1974, p. 4
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SITE-AND-FACILITIES/VIEWS/tags/97702907:	Magnet, Vol.18, No. 2, February 1974, p. 4
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SITE-AND-FACILITIES/VIEWS/tags/97702909:	Magnet, Vol.18, No. 6, June 1974 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SITE-AND-FACILITIES/VIEWS/tags/pg09_Campus:	LBL News, Vol.6, No.3, Fall 1981 |  U.C. Berkeley campus circa 1940. The Old Radiation Laboratory is the small, house-like structure to the right of the campanile at clock height; Le Conte hall is directly beneath the lab, Crocker Laboratory above it. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SITE-AND-FACILITIES/VIEWS/tags/pg72_livermore:	LBL News, Vol.6, No.3, Fall 1981 |  Livermore Naval Air Station at about the time it became the site for Mark I. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SITE-AND-FACILITIES/SERVICES/tags/96904560:	Magnet  Vol. 6, No. 8, August 1962 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/ACCELERATORS/DIAGRAMS/tags/pg21_diagram:	LBL News, Vol.6, No.3, Fall 1981 |  Top: Schematic diagram of Lawrence's hypothesis for disintegration of the deuteron to a proton and a neutron in the electric field of a nucleus. Bottom: Rutherford's proposal that two colliding deuterons decay either to hydrogen-3 or helium-3, yielding protons and neutrons. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/ACCELERATORS/DIAGRAMS/tags/pg70_diagram:	LBL News, Vol.6, No.3, Fall 1981 |  The principle of sector focusing: a particle crossing the bulging field ast the edge of a sector is pushed back into the horizontal plane. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/ACCELERATORS/DIAGRAMS/tags/pg70_diagram2:	LBL News, Vol.6, No.3, Fall 1981 |  Sector focusing produces particle orbits with lobes, one per sector-pair. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/ACCELERATORS/LINACS/tags/96602943:	LBL NEWS Magazine Vol.6, No.3, Fall 1981, p. 66 |  The 40- foot long radio-frequency cavity of the proton linac lifted out of its vacuum vessel.  
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/ACCELERATORS/LINACS/tags/96703314:	LBL Research Review, Vol. 11, No. 2, Summer 1986, p. 12 | The radio-frequency quadrupole gets its name from arrangement of four triangular-shaped vanes that form a small hole through which the ion beam passes. Ripples along the vane edges provide acceleration. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/ACCELERATORS/LINACS/tags/96703315:	LBL Research Review, Vol. 11, No. 2, Summer 1986, p. 13 | The radio-frequency quadrupole gets its name from the symmetrical arrangement of four triangular- shaped vanes that form a small hole through which the ion beam passes. Ripples along the vane edges provide acceleration. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/ACCELERATORS/CALUTRONS/tags/96602761:	LBL NEWS Magazine, Vol. 6, No. 3, Fall 1981,  p. 38 | Detail of the two ion source guns of the initial alpha calutron. Ion beams exit upwards into the funnel- shaped electrode boxes. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/ACCELERATORS/CALUTRONS/tags/ORO-2029:	LBL News, Vol.6, No.3, Fall 1981 |  An early view of the facilities at Oak Ridge; hundreds of workers were trained at Berkeley for the Tennessee-Eastman Company, operator  of the Oak Ridge plant. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/ACCELERATORS/CALUTRONS/tags/ORO_MED-228:	LBL News, Vol.6, No.3, Fall 1981 |  The alpha calutrons required constant attention to keep the ion beam current at a maximum. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/ACCELERATORS/CALUTRONS/tags/ORO_V-12-1:	LBL News, Vol.6, No.3, Fall 1981 |  Underneath each racetrack was a vast vacuum pumping system for the calutron tanks. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/ACCELERATORS/CALUTRONS/tags/ORO_Y-12-137:	LBL News, Vol.6, No.3, Fall 1981 |  The "C" shaped alpha calutron tank, together with its emitters and collectors on the lower-edge door, was removed in a special "drydock" from the magnet for recovery of uranium-235. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/ACCELERATORS/CALUTRONS/tags/ORO_Y-12-142:	LBL News, Vol.6, No.3, Fall 1981 |  Control panels and operators for calutrons at Oak Ridge. The operators, mostly women, worked in shifts covering 24 hours a day. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/ACCELERATORS/CALUTRONS/tags/ORO_Y-12-2:	LBL News, Vol.6, No.3, Fall 1981 |  A vast bank of diffusion vacuum pumps operated underneath the alpha calutron racetrack to free the tanks of air. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/ACCELERATORS/CALUTRONS/tags/ORO_Y-12-36:	LBL News, Vol.6, No.3, Fall 1981 |  The huge electromagnetic separation complex at Oak Ridge, Tennessee, became the heart of a bustling, closely-guarded community. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/ACCELERATORS/CALUTRONS/tags/pg36_diagram:	LBL News, Vol.6, No.3, Fall 1981 |  Schematic diagram of uranium isotope separation in the calutron. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/ACCELERATORS/CALUTRONS/tags/pg37_diagram:	LBL News, Vol.6, No.3, Fall 1981 |  Design of receiver for alpha calutron. Uranium-235 collects in the small pocket between "Q carbon" and "defining carbon." 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/ACCELERATORS/CALUTRONS/tags/pg38_magnet:	LBL News, Vol.6, No.3, Fall 1981 |  Installing magnet shims in an alpha calutron tank to increase output of uranium-235. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/ACCELERATORS/BEVATRON/tags/1979Fall_pg39_group:	LBL NEWS Magazine, Fall 1979, Vol. 4, No. 3, p. 39 | Staff of the Bevatron poses right after big modification program in 1963. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/ACCELERATORS/BEVATRON/tags/96602952:	LBL NEWS Magazine, Vol.6, No.3, Fall 1981, p. 76 | Fabricating one of the four straight connecting segments of the Bevatron.  
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/ACCELERATORS/BEVATRON/tags/96602953:	LBL NEWS Magazine, Vol.6, No.3, Fall 1981, p.77 |  Artist's conception of the Bevatron. The beam injector is at 4 o'clock, the experimental area and emergent beam at 8 o'clock. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/ACCELERATORS/BEVATRON/tags/96602955:	LBL News, Vol.6, No.3, Fall 1981, p.78 | Preparation of the foundation for the giant Bevatron magnet. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/ACCELERATORS/BEVATRON/tags/96602956:	LBL Newsmagazine, Vol.6, No.3, Fall 1981, p. 79 |  Huge motor generators with 65-ton flywheels for storing power supplied 100,000 kilowatts to the Bevatron for each accelerating cycle of 1.85 sec. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/ACCELERATORS/BEVATRON/tags/96602957:	LBL News, Vol.6, No.3, Fall 1981.p. 80 |  A Cockroft- Walton accelerator (right) fed protons to an Alvarez linac (center) for injection into the Bevatron at 10 MeV. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/ACCELERATORS/BEVATRON/tags/97502169:	Magnet, Vol. 7, No. 2, February 1963 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/ACCELERATORS/BEVATRON/tags/97502170:	Magnet, Vol. 7, No. 2, February 1963, p. 4 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/ACCELERATORS/BEVATRON/tags/97502171:	Magnet, Vol. 7, No. 2, February 1963, p. 5 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/ACCELERATORS/BEVATRON/tags/97502172:	Magnet, Vol. 7, No. 2, February 1963, p. 5 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/ACCELERATORS/BEVATRON/tags/97502173:	Magnet, Vol. 7, No. 2, February 1963, p. 5
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/ACCELERATORS/BEVATRON/tags/97502174:	Magnet, Vol. 7, No. 3, March 1963, p. 3 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/ACCELERATORS/BEVATRON/tags/97502179:	Magnet, Vol.11, No.1, January 1967 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/ACCELERATORS/BEVATRON/tags/97502180:	Magnet, Vol.11, No.1, January 1967 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/ACCELERATORS/BEVATRON/tags/97502197:	Magnet, Vol.11, No. 7, July 1967, p. 5 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/ACCELERATORS/BEVATRON/tags/97502206:	Magnet, Vol.13, No.11, November 1969 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/ACCELERATORS/BEVATRON/tags/97502207:	Magnet, Vol.13, No.11, November 1969, p. 4 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/ACCELERATORS/BEVATRON/tags/97502210:	Magnet, Vol.15, No.9, September 1971 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/ACCELERATORS/BEVATRON/tags/97502274:	Magnet, Vol.2, No.4, April 1958
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/ACCELERATORS/BEVATRON/tags/pg76_diagram:	LBL News, Vol.6, No.3, Fall 1981 |  Relative sizes, magnet weight, and cost of earliest particle accelerators at Berkeley. ES is the electron synchrotron, BV the Bevatron. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/ACCELERATORS/EARLY-LINEAR-ACCELERATORS/tags/96602942:	LBL NEWS Magazine Vol.6, No.3, Fall 1981, p. 66 | The steel vacuum chamber from the proton linac built in 1947 by a group under Luis Alvarez. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/ACCELERATORS/MTA-LIVERMORE/tags/96602939:	LBL NEWS Magazine, Vol.6, No.3, Fall 1981, p. 65 |  Proposed target structure for the 1500-foot Mark II accelerator. Scale is given by the two figures at lower right. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/ACCELERATORS/MTA-LIVERMORE/tags/96602940:	LBL NEWS Magazine, Vol.6, No.3, Fall 1981, p. 65 |  Schematic of Mark II, 1500 feet long. The injector is at near end, target at far. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/ACCELERATORS/MTA-LIVERMORE/tags/96602941:	LBL NEWS Magazine, Vol.6, No.3, Fall 1981, p.65 | The vacuum vessel for Mark I went up before its enclosure, 1952.  
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/ACCELERATORS/MTA-LIVERMORE/tags/96602945:	LBL NEWS Magazine, Vol.6, No.3, Fall 1981, p. 68 |  Shaping the copper ends of the large drift tubes for Mark I.  
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/ACCELERATORS/MTA-LIVERMORE/tags/96602946:	LBL NEWS Magazine, Vol.6, No.3, Fall 1981, p. 68 |  Aligning the central support for one of Mark I's drift tubes.  
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/ACCELERATORS/MTA-LIVERMORE/tags/96602947:	LBL NEWS Magazine, Vol.6, No.3, Fall 1981, p. 68 |  Assembly of the powerful radio oscillator for Mark I.  
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/ACCELERATORS/MTA-LIVERMORE/tags/96602948:	LBL NEWS Magazine, Vol.6, No.3, Fall 1981, p. 71 |  Shaped pole faces for the 1/10 scale electron model of the Mark III sector-focused cyclotron, 1951. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/ACCELERATORS/MTA-LIVERMORE/tags/96602949:	LBL NEWS Magazine, Vol.6, No.3, Fall 1981, p. 71 |  The magnet yoke of the model for Mark III showing the three strong/weak field regions.  
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/ACCELERATORS/MTA-LIVERMORE/tags/96602950:	LBL NEWS Magazine, Vol.6, No.3, Fall 1981, p. 72 |  Artist's concept of a possible target configuration for Mark III.  
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/ACCELERATORS/MTA-LIVERMORE/tags/96602951:	LBL NEWS Magazine, Vol.6, No.3, Fall 1981, p. 73 |  The completed oscillator for Mark I.  
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/ACCELERATORS/MTA-LIVERMORE/tags/GLB588-13328.LLNL:	LBL News, Vol.6, No.3, Fall 1981, p.75 | Vaccum vessel of the MTA Mark I under construction at Livermore. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/ACCELERATORS/MTA-LIVERMORE/tags/LLNL_133290:	LBL News, Vol.6, No.3, Fall 1981, p. 69 |  Looking down the vacuum tank of Mark 1: railroad tracks were used to move the massive drift tubes within the vessel. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/ACCELERATORS/ELECTRON-SYNCHROTRON/tags/96602881:	LBL NEWS Magazine, Vol.6, No.3, Fall 1981, p. 51 |  The completed ring-shaped non-metalic vacuum chamber for McMillan's electron synchrotron, ca. 1947.  
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/ACCELERATORS/ELECTRON-SYNCHROTRON/tags/97502159:	Magnet, Vol. 4, No. 2, February 1960, p. 3 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/ACCELERATORS/ELECTRON-SYNCHROTRON/tags/97502160:	Magnet, Vol. 4, No. 2, February 1960, p. 3 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/ACCELERATORS/ELECTRON-SYNCHROTRON/tags/97502178:	Magnet, Vol.10, No.10, October1966 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/ACCELERATORS/184-INCH-CYCLOTRON/tags/96602755:	LBL NEWS Magazine, Vol. 6, No. 3, Fall 1981,  p. 31 |  The magnet yoke for the 184-inch cyclotron during construction. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/ACCELERATORS/184-INCH-CYCLOTRON/tags/96602759:	LBL NEWS Magazine, Vol. 6, No. 3, Fall 1981,  p. 33 |  The magnet of the 184-inch machine testing alpha calutron tanks. To the right is the vertical-pole XA prototype test magnet for isotope separation. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/ACCELERATORS/184-INCH-CYCLOTRON/tags/96602771:	LBL News, Vol.6, No.3, Fall 1981, pg 46 |  The magnet yoke for the 184-inch cyclotron was set in place and the building  erected around it. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/ACCELERATORS/184-INCH-CYCLOTRON/tags/96602885:	LBL NEWS Magazine, Vol.6, No.3, Fall 1981, p. 54 | Artist's conception of the 184-inch cyclotron with a fanciful beam emerging toward the observer. | 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/ACCELERATORS/184-INCH-CYCLOTRON/tags/97502164:	Magnet, Vol. 5, No. 1, January 1961, p. 5 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/ACCELERATORS/184-INCH-CYCLOTRON/tags/97502211:	Magnet, Vol.15, Nos.10-11, October-November 1971, p. 2 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/ACCELERATORS/184-INCH-CYCLOTRON/tags/97502291:	Magnet, Vol.11, No. 10, October 1967, p. 9-10 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/ACCELERATORS/184-INCH-CYCLOTRON/tags/97502292:	Magnet, Vol.11, No. 10, October 1967, p. 9-10 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/ACCELERATORS/184-INCH-CYCLOTRON/tags/97502293:	Magnet, Vol.11, No. 10, October 1967, p. 9-10 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/ACCELERATORS/184-INCH-CYCLOTRON/tags/97502294:	Magnet, Vol.11, No. 10, October 1967, p. 9-10 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/ACCELERATORS/184-INCH-CYCLOTRON/tags/97502295:	Magnet, Vol.11, No. 10, October 1967, p. 9-10
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/ACCELERATORS/184-INCH-CYCLOTRON/tags/97502296:	Magnet, Vol.11, No. 10, October 1967, p. 9-10
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/ACCELERATORS/184-INCH-CYCLOTRON/tags/97502297:	Magnet, Vol.11, No. 10, October 1967, p. 9-10 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/ACCELERATORS/184-INCH-CYCLOTRON/tags/97502298:	Magnet, Vol.11, No. 10, October 1967, p. 9-10 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/ACCELERATORS/184-INCH-CYCLOTRON/tags/97502302:	Magnet, Vol.11, No. 10, October 1967, p. 9-10 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/ACCELERATORS/184-INCH-CYCLOTRON/tags/97502303:	Magnet, Vol.11, No. 10, October 1967, p. 9-10 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/ACCELERATORS/184-INCH-CYCLOTRON/tags/97502304:	Magnet, Vol.11, No. 10, October 1967, p. 9-10 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/ACCELERATORS/88-INCH-CYCLOTRON/tags/96703053:	LBL News, Vol.6, No.3, Fall 1981, p. 101 |  The 88-inch sector focused cyclotron, completed in 1961, uses the Thomas focusing principle refined by the MTA project. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/ACCELERATORS/88-INCH-CYCLOTRON/tags/97502161:	Magnet, Vol. 4, No. 12, December 1960, p. 6
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/ACCELERATORS/88-INCH-CYCLOTRON/tags/97502162:	Magnet, Vol. 4, No. 12, December 1960, p. 7
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/ACCELERATORS/88-INCH-CYCLOTRON/tags/97502166:	Magnet, Vol. 6, No. 1, January 1962 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/ACCELERATORS/88-INCH-CYCLOTRON/tags/97502265:	Magnet, Vol.16, No.5, May 1972, p. 4 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/ACCELERATORS/HILAC-SUPERHILAC/tags/96602944:	LBL NEWS Magazine, Vol.6, No.3, Fall 1981, p. 67 |  View inside the partially opened  linac chamber showing the drift tubes between which protons are successively accelerated.  
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/ACCELERATORS/HILAC-SUPERHILAC/tags/96703051:	LBL News, Vol.6, No.3, Fall 1981, p. 100 |To obtain intense and uniform beams of more nuclear species the SuperHilac, successor to the HILAC, was built and accelerates beams of heavy ions. || Seaborg Lecture - LBNL 65th Anniversary (8/26/96), slide D20 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/ACCELERATORS/HILAC-SUPERHILAC/tags/96703061:	LBL News, Vol.6, No.3, Fall 1981, p. 102 | Rectifier decks are part of the high voltage system for Abel, the new injector at the SuperHilac, which permits acceleration of ions as heavy as uranium. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/ACCELERATORS/HILAC-SUPERHILAC/tags/96703140:	LBL NEWS Magazine, Vol. 6, Nos. 1-2, Spring/Summer 1981, p. 4|High-voltage rectifier decks beneath Abel's terminal house dwarf engineer Gerd Behrsing. Accelerating columns which give the ions their first big boost are displayed like an elegant sculpture in a lucite case. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/ACCELERATORS/HILAC-SUPERHILAC/tags/96703141:	LBL NEWS Magazine, Vol. 5, No. 4, Winter 1980- 1981, p. 5 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/ACCELERATORS/HILAC-SUPERHILAC/tags/97502158:	Magnet, Vol. 1, No. 2, December 1957, p. 6 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/ACCELERATORS/HILAC-SUPERHILAC/tags/97502163:	Magnet, Vol. 5, No. 1, January 1961, p. 4 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/ACCELERATORS/HILAC-SUPERHILAC/tags/97502175:	Magnet, Vol. 9, No. 8, August 1965, p. 4 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/ACCELERATORS/HILAC-SUPERHILAC/tags/97502176:	Magnet, Vol. 9, No. 8, August 1965, p. 5 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/ACCELERATORS/HILAC-SUPERHILAC/tags/97502177:	Magnet, Vol. 9, No. 8, August 1965, p. 5 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/ACCELERATORS/HILAC-SUPERHILAC/tags/97502201:	Magnet, Vol.13, No.10, October 1969, p. 7 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/ACCELERATORS/HILAC-SUPERHILAC/tags/97502202:	Magnet, Vol.13, No.10, October 1969, p. 7 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/ACCELERATORS/HILAC-SUPERHILAC/tags/97502203:	Magnet, Vol.13, No.10, October 1969, p. 7 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/ACCELERATORS/HILAC-SUPERHILAC/tags/97502204:	Magnet, Vol.13, No.10, October 1969, p. 7 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/ACCELERATORS/HILAC-SUPERHILAC/tags/97502205:	Magnet, Vol.13, No.10, October 1969, p. 7 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/ACCELERATORS/HILAC-SUPERHILAC/tags/97502208:	Magnet, Vol.15, No.3, March 1971, p. 6 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/ACCELERATORS/HILAC-SUPERHILAC/tags/97502209:	Magnet, Vol.15, No.3, March 1971, p. 6 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/ACCELERATORS/HILAC-SUPERHILAC/tags/97502212:	Magnet, Vol.16, No.5, May 1972, p. 2 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/ACCELERATORS/BEVALAC/tags/96502087:	LBL News Magazine, Vol. 1, No. 1, Summer 1976, p. 5| The Bevalac: Ions of heavy elements, created in the SuperHILAC (top), are sent down a beam pipe (color line) for further acceleration in the Bevatron. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/ACCELERATORS/BEVALAC/tags/97502266:	Magnet, Vol.17, No.8, August 1973 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/ACCELERATORS/BEVALAC/tags/97502267:	Magnet, Vol.17, No.8, August 1973, p. 6 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/ACCELERATORS/BEVALAC/tags/97502268:	Magnet, Vol.17, No.8, August 1973, p. 6 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/ACCELERATORS/BEVALAC/tags/97502269:	Magnet, Vol.18, Nos.7-8, July-August 1974 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/ACCELERATORS/BEVALAC/tags/97502270:	Magnet, Vol.19, No.4, April 1975, p. 2 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/ACCELERATORS/BEVALAC/tags/97502271:	Magnet, Vol.19, No.4, April 1975, p. 3 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/ACCELERATORS/BEVALAC/tags/97502283:	Magnet, Vol.18, Nos.7-8, July-August 1974, p. 2 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/ACCELERATORS/OTHER-ACCELERATORS/tags/96703138:	LBL NEWS Magazine, Vol. 5, No. 4, Winter 1980- 1981, p. 4|Test facility: The 120 kilovolt neutral beam test facility in LBL's Building 16 is shown during construction. The facility, now in operation, is used for testing modular units of neutral beam injectors. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/ACCELERATORS/OTHER-ACCELERATORS/tags/96703313:	LBL Research Review, Vol. 11, No. 2, Summer 1986, p. 5 | Experimental areas are identified by their location along the seven-kilometer SPS ring that encircles French and Swiss countryside near Geneva. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/ACCELERATORS/OTHER-ACCELERATORS/tags/96703331:	LBL Research Review, Vol. 11, No. 3, Fall 1986, p. 32 | The tapered undulator designed by LBL's Klaus Halbach and Jack Tanabe was the key to the stupendous power gains achieved at LLNL. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/ACCELERATORS/OTHER-ACCELERATORS/tags/97502181:	Magnet, Vol.11, No.3, March 1967 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/ACCELERATORS/OTHER-ACCELERATORS/tags/97502198:	Magnet, Vol.11, No. 8, August 1967, p. 3 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/ACCELERATORS/OTHER-ACCELERATORS/tags/97502199:	Magnet, Vol.12, Nos. 1-2, January-February 1968, p. 3 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/ACCELERATORS/OTHER-ACCELERATORS/tags/97502200:	Magnet, Vol.13, No. 4, April 1969 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/ACCELERATORS/EARLY-CYCLOTRONS/tags/96602520:	LBL NEWS Magazine, Vol. 6, No. 3, Fall 1981, p. 10 | Lawrence's handwritten description of the event. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/ACCELERATORS/EARLY-CYCLOTRONS/tags/96602522:	LBL NEWS Magazine, Vol. 6, No. 3, Fall 1981,  p. 11 | The first successful cyclotron, 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/ACCELERATORS/EARLY-CYCLOTRONS/tags/96602523:	LBL NEWS Magazine, Vol.6, No.3, Fall 1981, p. 12 | Workmen at Federal Telegraph smoothing two castings for 80-ton magnets.  The tall central pole had to be machined down for use in the cyclotron. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/ACCELERATORS/EARLY-CYCLOTRONS/tags/96602526:	LBL NEWS Magazine, Vol. 6, No. 3, Fall 1981,  p. 15 |  The 11- inch cyclotron, shown installed in Room 329 Le Conte Hall, was the first cyclotron to exceed 1 MeV. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/ACCELERATORS/EARLY-CYCLOTRONS/tags/96602528:	LBL NEWS Magazine, Vol. 6, No. 3, Fall 1981,  p. 16 | Donald Cooksey posing with Ernest Lawrence at the 60-inch cyclotron. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/ACCELERATORS/EARLY-CYCLOTRONS/tags/96602532:	LBL NEWS Magazine, Vol. 6, No. 3, Fall 1981,  p. 21 || LBL News, Vol.6, No.3, Fall 1981 | "Cornog's robot," a product of downtime on the cyclotron, ca. 1939. Model unknown. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/ACCELERATORS/EARLY-CYCLOTRONS/tags/96602746:	LBL NEWS Magazine, Vol. 6, No. 3, Fall 1981,  p. 27 |  The blackboard in the old Radiation Lab recorded many important moments, including the first beam from the 60-inch cyclotron. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/ACCELERATORS/EARLY-CYCLOTRONS/tags/96602747:	LBL NEWS Magazine, Vol. 6, No. 3, Fall 1981,  p. 27 | A prewar cartoon of the 60-inch cyclotron. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/ACCELERATORS/EARLY-CYCLOTRONS/tags/96602748:	LBL NEWS Magazine, Vol. 6, No. 3, Fall 1981,  p. 27 |  Critical adjustments to the oscillator of the 60-inch cyclotron. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/ACCELERATORS/EARLY-CYCLOTRONS/tags/96602749:	LBL NEWS Magazine, Vol. 6, No. 3, Fall 1981,  p. 27 | The first external cyclotron beam, obtained on March 26, 1936. The glow arises from the ionization of the air by the 5.8 MeV deuterons. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/ACCELERATORS/EARLY-CYCLOTRONS/tags/97502165:	Magnet, Vol. 5, No. 1, January 1961, p. 5 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/ACCELERATORS/EARLY-CYCLOTRONS/tags/97502167:	Magnet, Vol. 6, No. 6, June 1962 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/ACCELERATORS/EARLY-CYCLOTRONS/tags/97502168:	Magnet, Vol. 6, No. 7, July 1962 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/ACCELERATORS/EARLY-CYCLOTRONS/tags/pg10_diagram:	LBL News, Vol.6, No.3, Fall 1981 |  Rolf Wideroe's diagrams describing a method for accelerating ions (left) inspired Ernest Lawrence's invention of the cyclotron. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/ACCELERATORS/EARLY-CYCLOTRONS/tags/pg11_diagram:	LBL News, Vol.6, No.3, Fall 1981 |  Diagram of the first successful cyclotron constructed by Lawrence and M. S. Livingston. The single dee is five inches in diameter. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/ACCELERATORS/EARLY-CYCLOTRONS/tags/pg12_diagram:	LBL News, Vol.6, No.3, Fall 1981 |  Sketch from Lawrence's notebook af an early shim for the 11- inch cyclotron. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/ACCELERATORS/EARLY-CYCLOTRONS/tags/pg14_diagram:	LBL News, Vol.6, No.3, Fall 1981 |  The first million-volt reading: January 8, 1932, 11-inch cyclotron. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/ACCELERATORS/ENGINEERING-DEVELOPMENT/tags/96904546:	Magnet  Vol. 5, No. 10, October 1961
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/ACCELERATORS/ENGINEERING-DEVELOPMENT/tags/96904731:	Magnet, Vol. 17, Nos. 5/6, May/June 1973, p. 1
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/ACCELERATORS/ENGINEERING-DEVELOPMENT/tags/96904732:	Magnet, Vol. 17, No. 7, July 1973, p. 1 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/ACCELERATORS/ENGINEERING-DEVELOPMENT/tags/96A04923:	Magnet Vol. 18, No. 2, February 1974, p. 8 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PARTICLE-DETECTION/SUDBURY-NEUTRINO-OBSERVATORY/tags/96703210:	LBL Research Review, Vol. 17, No. 1, Spring 1992, p. 36| A computer simulation depicts a solar neutrino event at the Sudbury Neutrino Observatory. A neutrino captured by a deuterium nucleus produces an energetic electron, which in turn generates Cerenkov light. This light is viewed by an array of nearly 10,000 photomultiplier tubes, placed in a geodesic support structure. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PARTICLE-DETECTION/SUDBURY-NEUTRINO-OBSERVATORY/tags/96703225:	LBL Research Review, Vol. 18, No. 2, Summer 1993, p. 39 | The 18-meter-high, stainless-steel sphere, a major component of the international scientific experiment known as the Sudbury Neutrino Observatory (SNO), hangs from a crane during the ribbon-cutting ceremony marking its completion in July 1993. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PARTICLE-DETECTION/SUDBURY-NEUTRINO-OBSERVATORY/tags/96703229:	Highlights 1993, p. 13 |  The Sudbury Neutrino Observatory (SNO) ball suspended from a 170-foot crane at the ribbon-cutting ceremony in Petaluma, California. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PARTICLE-DETECTION/OTHERS/tags/97602588:	Magnet, Vol.16, No. 5, May 1972, p. 3 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PARTICLE-DETECTION/ELECTRONIC-DETECTORS/tags/96703050:	LBL News, Vol.6, No.3, Fall 1981, p. 99 |  The Time Projection Chamber (TPC), shown with inventor David Nygren (left), was designed by LBL physicists for use at PEP, the positron-electron colliding beam ring at Stanford. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PARTICLE-DETECTION/ELECTRONIC-DETECTORS/tags/96703052:	LBL News, Vol.6, No.3, Fall 1981, p. 100 |  Mark II (no kin to the MTA) is the successor to the Mark I detector in which the new class of particles known as the psi or J particles was found; it is being used at PEP. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PARTICLE-DETECTION/ELECTRONIC-DETECTORS/tags/96703060:	LBL News, Vol.6, No.3, Fall 1981, p. 101 |  HISS, the heavy ion spectrometer system at the Bevatron, permits a number of different heavy-ion experiments to be done at the same time. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PARTICLE-DETECTION/ELECTRONIC-DETECTORS/tags/96703067:	LBL News, Vol.6, No.3, Fall 1981, p. 105 |  The Plastic Ball, developed by a collaboration between scientists from LBL and West Germany, is the first detector system that records electronically the products of high-energy nuclear collisions simultaneously from all angles; it is being used in Bevalac experiments. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PARTICLE-DETECTION/ELECTRONIC-DETECTORS/tags/96703142:	LBL NEWS Magazine,  Vol. 6, No. 4, Winter 1981- 1982, cover.  One of the two end caps of the Time Projection Chamber (TPC), seen from the back, or outside perspective.  The caps are at each end of a gas-filled chamber about one meter long. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PARTICLE-DETECTION/ELECTRONIC-DETECTORS/tags/96703143:	LBL NEWS Magazine,  Vol. 6, No. 4, Winter 1981- 1982, p. 8 /Massive iron structure surrounding the Time Projection Chamber (not yet in place here) is PEP- 4's muon detecting system. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PARTICLE-DETECTION/ELECTRONIC-DETECTORS/tags/96703146:	LBL NEWS Magazine,  Vol. 6, No. 4, Winter 1981- 1982, p. 21/The Plastic Ball, showing photomultiplier tubes that convert light into electrical pulses. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PARTICLE-DETECTION/ELECTRONIC-DETECTORS/tags/96703230:	Highlights 1993, p. 21 |  A close-up of the LBL- designed integrated circuit electronics package, which enables the Silicon Vertex Detector to measure tracks of charged particles with high spatial resolution in the face of an enormous flux of produced particles. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PARTICLE-DETECTION/ELECTRONIC-DETECTORS/tags/96703304:	Highlights 1994-1995, p. 20 | The Gammasphere, designed to detect and analyze gamma rays, shown in its final phase of assembly, Fall 1994. Gammasphere will provide a 100-fold increase in sensitivity over previously existing detector systems. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PARTICLE-DETECTION/ELECTRONIC-DETECTORS/tags/96703305:	Highlights 1994-1995, p. 20 | Geranium semiconductor detectors fan out from the target chamber of the Gammasphere, designed to detect and analyze gamma rays, shown in its final phase of assembly, Fall 1994. Gammasphere will provide a 100-fold increase in sensitivity over previously existing detector systems.  Germanium semicondcutor detectors fan out from the target chamber. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PARTICLE-DETECTION/ELECTRONIC-DETECTORS/tags/96703311:	LBL Research Review, Vol. 11, No. 2, Summer, 1986, p. 3. | LBL's plastic ball detector plays a major role in the quark-gluon plasma hunt experiments at CERN. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PARTICLE-DETECTION/ELECTRONIC-DETECTORS/tags/96A04912:	Magnet, Vol. 13, No. 9, Sep 1969, p. 5 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PARTICLE-DETECTION/ELECTRONIC-DETECTORS/tags/97200333:	Magnet, Vol. 18, No. 6, June 1974
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PARTICLE-DETECTION/BUBBLE-CHAMBERS/tags/96602977:	LBL NEWS Magazine, Vol. 6, No. 3, Fall 1981,  p. 88  | First tracks observed in liquid hydrogen by John Wood, 1954. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PARTICLE-DETECTION/BUBBLE-CHAMBERS/tags/96602979:	LBL NEWS Magazine, Vol. 6, No. 3, Fall 1981,  p. 89 | The 72- inch chamber removed from its instrumentation. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PARTICLE-DETECTION/BUBBLE-CHAMBERS/tags/96602981:	LBL NEWS Magazine, Vol. 6, No. 3, Fall 1981,  p. 90 | The 72- inch liquid hydrogen bubble chamber in its home, building 59. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PARTICLE-DETECTION/BUBBLE-CHAMBERS/tags/96703037:	LBL News, Vol.6, No.3, Fall 1981, p.93 |  A view of tracks in the window of the 72-inch bubble chamber. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PARTICLE-DETECTION/BUBBLE-CHAMBERS/tags/96703038:	LBL NEWS Magazine, Vol.6, No.3, Fall 1981, p.94 |  A negative kaon entering from below produces an uncharged kaon and an uncharged X0 that, in turn, decays into two uncharged particles (L+p0).  
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PARTICLE-DETECTION/BUBBLE-CHAMBERS/tags/96703039:	LBL NEWS Magazine, Vol.6, No.3, Fall 1981, p. 94 |  A pion entering from the left and striking a proton produces two uncharged particles (K0 and L) that leave no tracks until they too decay. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PARTICLE-DETECTION/BUBBLE-CHAMBERS/tags/96703135:	LBL NEWS Magazine, Vol. 3,  Nos. 3-4, Fall-Winter 1978, p. 32 | Bubble chamber 15" 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PARTICLE-DETECTION/BUBBLE-CHAMBERS/tags/96904548:	Magnet  Vol. 6, No. 4, April 1962
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PARTICLE-DETECTION/BUBBLE-CHAMBERS/tags/97502275:	Magnet, Vol.2, No.6, June 1958
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PARTICLE-DETECTION/BUBBLE-CHAMBERS/tags/97602601:	Magnet, Vol.4, No. 10, October 1960 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PARTICLE-DETECTION/BUBBLE-CHAMBERS/tags/97602724:	Magnet, Vol.5, No. 7, July 1961, p. 2 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PARTICLE-DETECTION/BUBBLE-CHAMBERS/tags/97602728:	Magnet, Vol.7, No. 12, December 1963
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PARTICLE-DETECTION/BUBBLE-CHAMBERS/tags/97702840:	Magnet, Vol.11, No.1, January 1967, p. 3
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PARTICLE-DETECTION/BUBBLE-CHAMBERS/tags/97702848:	Magnet, Vol.12, Nos.1-2, January-February 1968
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PARTICLE-DETECTION/BUBBLE-CHAMBERS/tags/97702853:	Magnet, Vol.12, No.11, November 1968, p. 7 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PARTICLE-DETECTION/BUBBLE-CHAMBERS/tags/97702877:	Magnet, Vol.14, No.6, June 1970
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PARTICLE-DETECTION/BUBBLE-CHAMBERS/tags/pg87_diagram:	LBL News, Vol.6, No.3, Fall 1981 |  Sketch of the first liquid hydrogen bubble chamber (1.5-inch diameter), built by John Wood and A. J. Schwemin in 1954. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PARTICLE-DETECTION/SPARK-AND-STREAMER-CHAMBERS/tags/96703366:	LBL Research Review, Vol. 13, No. 2, Summer 1988, p. 15.  Reaction products detected in the Streamer Chamber when a 1.1-GeV-per-nucleon beam of holmium-165 collided with a holmium-165 target at the Bevalac. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PARTICLE-DETECTION/SPARK-AND-STREAMER-CHAMBERS/tags/96904772:	Magnet  Vol. 10, No. 11, November 1966, p. 3 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PARTICLE-DETECTION/SPARK-AND-STREAMER-CHAMBERS/tags/96A04844:	Magnet Vol. 12, No. 7/8, July/August 1968, p. 1
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PARTICLE-DETECTION/SPARK-AND-STREAMER-CHAMBERS/tags/96A04845:	Magnet  Vol. 12, No. 7/8, July/August 1968, p. 4
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PARTICLE-DETECTION/SPARK-AND-STREAMER-CHAMBERS/tags/96A04907:	Magnet Vol.13, No. 6, June 1969, p. 4 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PARTICLE-DETECTION/SPARK-AND-STREAMER-CHAMBERS/tags/97200329:	Magnet, Vol. 15, No. 4-5, April-May 1971, p. 4
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PARTICLE-DETECTION/EMULSIONS/tags/96602886:	LBL NEWS Magazine, Vol.6, No.3, Fall 1981, p. 55 | Schematic of the arrangement within the tank of the 184-inch synchrocyclotron devised by Gardner et al. to detect negative mesons, the paths of which are bent around the shielding and into the plate by the accelerator's field, 1948.  
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PARTICLE-DETECTION/EMULSIONS/tags/96602887:	LBL NEWS Magazine, Vol.6, No.3, Fall 1981, p. 55 | Emulsion holder used in the pi-meson search. The curved channels act to prevent particles with the wrong radii of curvature from reaching the plates placed in back. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PARTICLE-DETECTION/EMULSIONS/tags/96602891:	LBL NEWS Magazine, Vol.6, No.3, Fall 1981 |  The Ilford company produced special photographic plates containing extra chemical elements for the meson search.  
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PARTICLE-DETECTION/EMULSIONS/tags/96602892:	LBL NEWS Magazine, Vol.6, No.3, Fall 1981 |  Troubles plagued the exposure of emulsions and entire series of results were marked "bad."  
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PARTICLE-DETECTION/EMULSIONS/tags/96602893:	LBL NEWS Magazine, Vol.6, No.3, Fall 1981 |  Mesons produced by the beam hitting the small target at left follow curved paths in the magnetic field of the cyclotron. This sketch is from E. Gardner's notebooks.  
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PARTICLE-DETECTION/EMULSIONS/tags/pg57_diagram:	LBL News, Vol.6, No.3, Fall 1981 | Photomicrograph of the track of one of the first mesons found by Gardener and Lattes, 1948. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PARTICLE-DETECTION/EMULSIONS/tags/pg59_diagram:	LBL News, Vol.6, No.3, Fall 1981 |  Schematic of the experiment of Bjorkland et al., showing observation through a port in the concrete shielding of disintegration photons proceeding against the proton beam; photons moving in the direction of the protons were observed through the same port with the beam reversed, 1950. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PARTICLE-DETECTION/SCANNING-DEVICES/tags/96602982:	LBL NEWS Magazine, Vol. 6, No. 3, Fall 1981,  p. 91 | Jack Franck's "Franckenstein" reduces bubble chamber film to machine readable data. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PARTICLE-DETECTION/SCANNING-DEVICES/tags/96602983:	LBL NEWS Magazine, Vol. 6, No. 3, Fall 1981,  p. 92 | Operator maps particle tracks with Alvarez Scanning and Measuring Projector. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PARTICLE-DETECTION/SCANNING-DEVICES/tags/96703036:	LBL News, Vol.6, No.3, Fall 1981, p. 93 |  The semiautomatic Spiral Reader could analyze up to 150 bubble chamber events an hour. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PARTICLE-DETECTION/SCANNING-DEVICES/tags/96904539:	Magnet Vol. 5, No. 4, April 1961
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PARTICLE-DETECTION/SCANNING-DEVICES/tags/96904540:	Magnet  Vol. 5, No. 4, April 1961 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PARTICLE-DETECTION/SCANNING-DEVICES/tags/96904541:	Magnet  Vol. 5, No. 4, April 1961 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PARTICLE-DETECTION/SCANNING-DEVICES/tags/96904543:	Magnet  Vol. 5, No. 4, April 1961
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PARTICLE-DETECTION/SCANNING-DEVICES/tags/96904544:	Magnet  Vol. 5, No. 4, April 1961
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PARTICLE-DETECTION/SCANNING-DEVICES/tags/96904549:	Magnet  Vol. 6, No. 8, August 1962
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PARTICLE-DETECTION/SCANNING-DEVICES/tags/96904550:	Magnet  Vol. 6, No. 8, August 1962
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PARTICLE-DETECTION/SCANNING-DEVICES/tags/96904763:	Magnet Vol. 12, No. 3, March 1968, p. 4 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PARTICLE-DETECTION/SCANNING-DEVICES/tags/97702846:	Magnet, Vol.11, No.5, May 1967, p. 5
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PARTICLE-DETECTION/SEMICONDUCTING-DEVICES/tags/96904740:	Magnet Vol. 9, No. 6, June 1965, p. 6
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PARTICLE-DETECTION/SEMICONDUCTING-DEVICES/tags/96904741:	Magnet Vol. 9, No. 6, June 1965, p. 6
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PARTICLE-DETECTION/SEMICONDUCTING-DEVICES/tags/96904742:	Magnet Vol. 9, No. 6, June 1965, p. 7
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PARTICLE-DETECTION/SEMICONDUCTING-DEVICES/tags/96904755:	Magnet Vol. 10, No. 2, February 1966, p. 1 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PARTICLE-DETECTION/SEMICONDUCTING-DEVICES/tags/96A04860:	Magnet Vol. 13, No. 1, January/February 1969, p. 1
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PARTICLE-DETECTION/SEMICONDUCTING-DEVICES/tags/96A04861:	Magnet Vol. 13, No. 1, January/February 1969, p. 6
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PARTICLE-DETECTION/SEMICONDUCTING-DEVICES/tags/96A04894:	Magnet Vol. 13, No. 1, January/February 1969, p. 7 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PARTICLE-DETECTION/SEMICONDUCTING-DEVICES/tags/96A04906:	Magnet Vol.13, No. 6, June 1969, p. 3 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PARTICLE-DETECTION/SEMICONDUCTING-DEVICES/tags/97200336:	Magnet, Vol. 18, No. 9, Sept. 1974, p. 2
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PARTICLE-DETECTION/SEMICONDUCTING-DEVICES/tags/97602591:	Magnet, Vol.16, Nos. 11-12, November/December 1972, p. 2 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PARTICLE-DETECTION/SEMICONDUCTING-DEVICES/tags/97602592:	Magnet, Vol.16, Nos. 11-12, November/December 1972, p. 3
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/PARTICLE-DETECTION/CLOUD-CHAMBERS/tags/pg09_cloudchamber:	LBL News, Vol.6, No.3, Fall 1981 |  This cloud- chamber photograph, showing the track of a positively charged particle of electronic mass slowed down by passing upward through a lead plate, was among the earliest evidence of the existence of the positron adduced by C. D. Anderson (1932). 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1930-1990/ASTROPHYSICS/tags/96904756:	Magnet Vol. 10, No. 2, February 1966, p. 9 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1930-1990/ASTROPHYSICS/tags/96904759:	Magnet Vol. 11, No. 9, September 1967, p.1 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1930-1990/ASTROPHYSICS/tags/96A04908:	Magnet Vol. 13, No. 7/8, July/August 1969, p. 1 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1930-1990/ASTROPHYSICS/tags/96A04910:	Magnet Vol. 13, No. 7/8, July/August 1969, p.  5 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1930-1990/ASTROPHYSICS/tags/96A04911:	Magnet, Vol. 13, No. 9, Sep 1969, p. 4 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1930-1990/ASTROPHYSICS/tags/96A04917:	Magnet, Vol. 14, No. 9, Sep 1970, p. 1
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1930-1990/ASTROPHYSICS/tags/96A04924:	Magnet, Vol. 18, No. 3/4, March/April 1974, p. 5 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1930-1990/ASTROPHYSICS/tags/96A04925:	Magnet, Vol. 18, No. 3/4, March/April 1974, p. 4
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1930-1990/ASTROPHYSICS/tags/97100017:	Magnet Vol. 15, No. 9, Sept. 1971, p. 2
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1930-1990/ASTROPHYSICS/tags/97200326:	Magnet, Vol. 14, No. 12, December 1970, p. 4 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1930-1990/ASTROPHYSICS/tags/97602585:	Magnet, Vol.15, No. 12, December 1971, p. 2 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1930-1990/ASTROPHYSICS/tags/97602593:	Magnet, Vol.14, No. 12, December 1970, p. 5 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1930-1990/ENERGY-ENVIRONMENT/tags/96A04921:	Magnet, Vol. 18, No. 1, January 1974, p. 1
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1930-1990/ENERGY-ENVIRONMENT/tags/96A04926:	Magnet, Vol. 18, No. 3/4, March/April 1974, p. 6
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1930-1990/ENERGY-ENVIRONMENT/tags/96A04927:	Magnet, Vol. 18, No. 5, May 1974, p. 1
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1930-1990/ENERGY-ENVIRONMENT/tags/96A04939:	Magnet, Vol. 18, Nos. 11/12, November/December 1974, p. 7
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1930-1990/ENERGY-ENVIRONMENT/tags/96A04940:	Magnet, Vol. 19, Nos. 2/3, February/March 1975, p. 1
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1930-1990/ENERGY-ENVIRONMENT/tags/97200337:	Magnet, Vol. 18, No. 10, Oct. 1974
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1930-1990/ENERGY-ENVIRONMENT/tags/97200514:	Magnet, Vol. 18, Nos. 11-12, Nov.-Dec. 1974, p. 3
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1930-1990/ENERGY-ENVIRONMENT/tags/97200515:	Magnet, Vol. 18, Nos. 11-12, Nov.-Dec. 1974, p. 3
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1930-1990/ENERGY-ENVIRONMENT/tags/97200516:	Magnet, Vol. 18, Nos. 11-12, Nov.-Dec. 1974, p. 3
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1930-1990/ENERGY-ENVIRONMENT/tags/97200517:	Magnet, Vol. 18, Nos. 11-12, Nov.-Dec. 1974, p. 4
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1930-1990/ENERGY-ENVIRONMENT/tags/97200519:	Magnet, Vol. 18, Nos. 11-12, Nov.-Dec. 1974, p. 7 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1930-1990/ENERGY-ENVIRONMENT/tags/97602586:	Magnet, Vol.15, No. 12, December 1971, p. 3
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1930-1990/ENERGY-ENVIRONMENT/tags/97602590:	Magnet, Vol.16, No. 8, August 1972, p. 4 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1930-1990/LIFE-SCIENCES/BIOLOGICAL-IMAGING/tags/96904534:	Magnet  Vol. 5, No. 3, March 1961 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1930-1990/LIFE-SCIENCES/BIOLOGICAL-IMAGING/tags/96904535:	Magnet Vol. 5, No. 3, March 1961 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1930-1990/LIFE-SCIENCES/BIOLOGICAL-IMAGING/tags/96A04843:	Magnet  Vol. 12, No. 8, June 1968, p. 6 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1930-1990/LIFE-SCIENCES/BIOLOGICAL-IMAGING/tags/96A04922:	Magnet, Vol. 18, No. 1, January 1974, p. 1
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1930-1990/LIFE-SCIENCES/BIOLOGICAL-IMAGING/tags/XBD9610-04913:	Magnet, Vol. 13, No. 10, Oct 1969, p. 3 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1930-1990/LIFE-SCIENCES/OTHER/tags/96904453:	Magnet, Vol. 5, No. 2, February 1961 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1930-1990/LIFE-SCIENCES/OTHER/tags/96904545:	Magnet  Vol. 5, No. 9, September 1961
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1930-1990/LIFE-SCIENCES/OTHER/tags/96904547:	Magnet  Vol. 6, No. 1, January 1962
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1930-1990/LIFE-SCIENCES/OTHER/tags/96904558:	Magnet  Vol. 6, No. 8, August 1961
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1930-1990/LIFE-SCIENCES/OTHER/tags/96904564:	Magnet  Vol. 7, No. 6, June 1963 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1930-1990/LIFE-SCIENCES/OTHER/tags/96904733:	Magnet, Vol. 17, No. 9, September 1973, p. 2
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1930-1990/LIFE-SCIENCES/OTHER/tags/96904734:	Magnet, Vol. 17, No. 9, September 1973, p. 3
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1930-1990/LIFE-SCIENCES/OTHER/tags/96904738:	Magnet Vol. 9, No. 6, June 1965, p. 1 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1930-1990/LIFE-SCIENCES/OTHER/tags/96904739:	Magnet Vol. 9, No. 6, June 1965, p. 1 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1930-1990/LIFE-SCIENCES/OTHER/tags/96904760:	Magnet Vol. 11, No. 10, October 1967, p. 12 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1930-1990/LIFE-SCIENCES/OTHER/tags/96904765:	Magnet Vol. 12, No. 6, June 1968, p. 1 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1930-1990/LIFE-SCIENCES/OTHER/tags/96904773:	Magnet Vol. 10, No. 12, December 1966, p. 1 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1930-1990/LIFE-SCIENCES/OTHER/tags/96A04842:	Magnet,  Vol. 12, No. 6, June 1968, p. 4
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1930-1990/LIFE-SCIENCES/OTHER/tags/96A04915:	Magnet, Vol. 14, No. 1/2, Jan/Feb 1970, p. 1 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1930-1990/LIFE-SCIENCES/OTHER/tags/96A04918:	Magnet, Vol. 14, No. 10/11, Oct/Nov 1970, p. 1 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1930-1990/LIFE-SCIENCES/RADIATION-MEDICINE/tags/1979Fall_pg39_diagram:	LBL News, Fall 1979, p. 39//A design drawing for the innovative Sloan x-ray tube (named for inventor D.H. Sloan).  Left: a handwritten notation by John Lawrence (now a U.C. Regent) describing how the unit was used to treat his and Ernest's mother for cancer. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1930-1990/LIFE-SCIENCES/RADIATION-MEDICINE/tags/96602527:	LBL NEWS Magazine, Vol. 6, No. 3, Fall 1981,  p. 15 |  David Sloan and J. J. Livingood work on the Sloan x-ray tube built at the University of California Hospital in San Francisco in 1932-3. With this machine, Lawrence's backers hoped to break the stranglehold of the large electrical manufacturers on the high-voltage x-ray tube market.
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1930-1990/LIFE-SCIENCES/RADIATION-MEDICINE/tags/96904559:	Magnet  Vol. 6, No. 11, November 1962 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1930-1990/LIFE-SCIENCES/RADIATION-MEDICINE/tags/96A04941:	Magnet, Vol. 19, Nos. 2/3, February/March 1975, p. 1
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1930-1990/LIFE-SCIENCES/RADIATION-MEDICINE/tags/96A04943:	Magnet, Vol. 19, No. 4, April 1975, p. 1
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1930-1990/LIFE-SCIENCES/RADIATION-MEDICINE/tags/97200334:	Magnet, Vol. 18, Nos. 7-8, July-Aug 1974
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1930-1990/MATERIAL-SCIENCES-SOLID-STATE-PHYSICS/tags/96904735:	Magnet, Vol. 17, Nos. 10/11, October/November 1973, p. 1 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1930-1990/MATERIAL-SCIENCES-SOLID-STATE-PHYSICS/tags/96904736:	Magnet, Vol. 17, Nos. 10/11, October/November 1973, p. 3
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1930-1990/MATERIAL-SCIENCES-SOLID-STATE-PHYSICS/tags/96904737:	Magnet, Vol. 17, Nos. 10/11, October/November 1973, p.3
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1930-1990/MATERIAL-SCIENCES-SOLID-STATE-PHYSICS/tags/96904743:	Magnet  Vol. 9, No. 11 November 1965, p. 1 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1930-1990/MATERIAL-SCIENCES-SOLID-STATE-PHYSICS/tags/96904744:	Magnet  Vol. 9, No. 11 November 1965, p. 3 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1930-1990/MATERIAL-SCIENCES-SOLID-STATE-PHYSICS/tags/96904750:	Magnet Vol. 8, No. 3, March 1964, p. 8 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1930-1990/MATERIAL-SCIENCES-SOLID-STATE-PHYSICS/tags/96904757:	Magnet Vol. 10, No. 6, June 1966, p. 1
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1930-1990/MATERIAL-SCIENCES-SOLID-STATE-PHYSICS/tags/96904758:	Magnet Vol. 11, No. 8, August 1967, p. 1 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1930-1990/MATERIAL-SCIENCES-SOLID-STATE-PHYSICS/tags/96904768:	Magnet Vol. 10, No. 6, June 1966, p. 3 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1930-1990/MATERIAL-SCIENCES-SOLID-STATE-PHYSICS/tags/96A04846:	Magnet Vol. 12, No. 9, September 1968, p. 6
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1930-1990/MATERIAL-SCIENCES-SOLID-STATE-PHYSICS/tags/96A04847:	Magnet Vol. 12, No. 9, September 1968, p. 6
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1930-1990/MATERIAL-SCIENCES-SOLID-STATE-PHYSICS/tags/96A04928:	Magnet, Vol. 18, No. 5, May 1974, p. 1
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1930-1990/MATERIAL-SCIENCES-SOLID-STATE-PHYSICS/tags/96A04942:	Magnet, Vol. 19, Nos. 2/3, February/March 1975, p. 2
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1930-1990/MATERIAL-SCIENCES-SOLID-STATE-PHYSICS/tags/97200338:	Magnet, Vol. 18, No. 10, Oct. 1974, p. 2
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1930-1990/MATERIAL-SCIENCES-SOLID-STATE-PHYSICS/tags/97200518:	Magnet, Vol. 18, Nos. 11-12, Nov.-Dec. 1974, p. 5
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1930-1990/MATERIAL-SCIENCES-SOLID-STATE-PHYSICS/tags/97602587:	Magnet, Vol.16, No. 5, May 1972 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1930-1990/MATERIAL-SCIENCES-SOLID-STATE-PHYSICS/tags/97602589:	Magnet, Vol.16, No. 8, August 1972 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1930-1990/NUCLEAR-PHYSICS/ISOTOPES/tags/96904762:	Magnet Vol. 11, No. 12, December 1967, p. 3 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1930-1990/NUCLEAR-PHYSICS/ISOTOPES/tags/96904769:	Magnet Vol. 10, No. 8, August 1966, p. 6 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1930-1990/NUCLEAR-PHYSICS/ISOTOPES/tags/96904770:	Magnet Vol. 10, No. 8, August 1966, p. 7 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1930-1990/NUCLEAR-PHYSICS/OTHER/tags/96703134:	LBL NEWS Magazine, Vol. 2, No. 3, Fall 1977, p. 10.  X-ray of Sir Francis Drake's Brass Plate. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1930-1990/NUCLEAR-PHYSICS/OTHER/tags/96904563:	Magnet  Vol. 7, No. 4, April 1963 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1930-1990/NUCLEAR-PHYSICS/OTHER/tags/96904730:	Magnet, Vol. 17, No. 1, January 1973, p. 2
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1930-1990/NUCLEAR-PHYSICS/OTHER/tags/96904745:	Magnet  Vol. 8, No. 3 March 1964, p. 1 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1930-1990/NUCLEAR-PHYSICS/OTHER/tags/96904752:	Magnet Vol. 9, No. 5, May 1965, p. 1 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1930-1990/NUCLEAR-PHYSICS/OTHER/tags/96904764:	Magnet Vol. 12, No. 5, May 1968, p. 4 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1930-1990/NUCLEAR-PHYSICS/OTHER/tags/96A04905:	Magnet Vol. 13, No. 5, May 1969, p. 1 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1930-1990/NUCLEAR-PHYSICS/OTHER/tags/96A04914:	Magnet, Vol. 13, No., 12, Dec 1969, p. 3 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1930-1990/NUCLEAR-PHYSICS/OTHER/tags/96A04944:	Magnet, Vol. 19, No. 4, April 1975, p. 5
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1930-1990/NUCLEAR-PHYSICS/OTHER/tags/97200328:	Magnet, Vol. 15, No. 3, March 1971 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1930-1990/NUCLEAR-PHYSICS/TRANSURANIUM-ELEMENTS/tags/96602764:	LBL NEWS Magazine, Vol. 6, No. 3, Fall 1981,  p. 43 |  First plutonium sample used to determine its fission properties in March, 1941. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1930-1990/NUCLEAR-PHYSICS/TRANSURANIUM-ELEMENTS/tags/96602765:	LBL NEWS Magazine, Vol. 6, No. 3, Fall 1981,  p. 43 | Twenty micrograms of pure plutonium hydroxide in capillary tube, September 1942. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1930-1990/NUCLEAR-PHYSICS/TRANSURANIUM-ELEMENTS/tags/96602774:	LBL NEWS Magazine, Vol.6, No.3, Fall 1981, p. 49 |  The triangle in the glass tube contains the world's first sample of americium, produced in the 60- inch cyclotron in 1944. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1930-1990/NUCLEAR-PHYSICS/TRANSURANIUM-ELEMENTS/tags/96602775:	LBL NEWS Magazine, Vol. 6, No. 3, Fall 1981, p. 49 | Newspaper headlines announced the discovery of another new element, berkelium.  
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1930-1990/NUCLEAR-PHYSICS/TRANSURANIUM-ELEMENTS/tags/96904447:	Magnet,  Vol. 2, No. 5, May 1958 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1930-1990/NUCLEAR-PHYSICS/TRANSURANIUM-ELEMENTS/tags/96904452:	Magnet, Vol. 4, No. 3, March 1960 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1930-1990/NUCLEAR-PHYSICS/TRANSURANIUM-ELEMENTS/tags/96904536:	Magnet Vol. 5, No. 4, April 1961 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1930-1990/NUCLEAR-PHYSICS/TRANSURANIUM-ELEMENTS/tags/96904537:	Magnet  Vol. 5, No. 4, April 1961 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1930-1990/NUCLEAR-PHYSICS/TRANSURANIUM-ELEMENTS/tags/96A04895:	Magnet Vol. 13, No. 4, April 1969, p. 1 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1930-1990/NUCLEAR-PHYSICS/TRANSURANIUM-ELEMENTS/tags/96A04896:	Magnet Vol. 13, No. 4, April 1969, p. 5 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1930-1990/NUCLEAR-PHYSICS/TRANSURANIUM-ELEMENTS/tags/96A04897:	Magnet Vol. 13, No. 4, April 1969, p. 12 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1930-1990/NUCLEAR-PHYSICS/TRANSURANIUM-ELEMENTS/tags/96A04916:	Magnet, Vol. 14, No. 5, May 1970, p. 4 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1930-1990/NUCLEAR-PHYSICS/TRANSURANIUM-ELEMENTS/tags/97200335:	Magnet, Vol. 18, No. 9, Sept. 1974
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1930-1990/NUCLEAR-PHYSICS/TRANSURANIUM-ELEMENTS/tags/97502400:	Magnet, Vol.10, No. 3, March 1966
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1930-1990/NUCLEAR-PHYSICS/TRANSURANIUM-ELEMENTS/tags/97502401:	Magnet, Vol.10, No. 4, April1966, p. 3
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1930-1990/NUCLEAR-PHYSICS/TRANSURANIUM-ELEMENTS/tags/97502402:	Magnet, Vol.10, No. 4, April1966, p. 3
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1930-1990/PARTICLE-PHYSICS/ANTIPROTON/tags/96602963:	LBL News, Vol.6, No.3, Fall 1981, p. 81 |Anti- proton detector used successfully in 1955 by Segre's group. M indicates bending magnets, Q indicates  focusing quadrupole magnets, S indicates scintillation counters and C indicates Cerenkov counters to eliminate false counts 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1930-1990/PARTICLE-PHYSICS/ANTIPROTON/tags/96602964:	LBL News, Vol.6, No.3, Fall 1981, p. 81 |  Lofgren group's detector that analyzed the beam from Segre's magnets. The small Cerenkov counters distinguished the antiproton from a meson, the large one registered the annihilation of an antiproton with a proton. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1930-1990/PARTICLE-PHYSICS/ANTIPROTON/tags/96602965:	LBL News, Vol.6, No.3, Fall 1981, p. 82 | Antiproton detecting setup at the Bevatron, 1955. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1930-1990/PARTICLE-PHYSICS/ANTIPROTON/tags/96602966:	LBL News, Vol.6, No.3, Fall 1981, p. 83 |  Day-to- day results of the antiproton experiment were displayed on a chalk-board in the Bevatron. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1930-1990/PARTICLE-PHYSICS/ANTIPROTON/tags/96602967:	LBL NEWS Magazine, Vol. 6, No. 3, Fall 1981,  p. 84 | The first annihilation star ("Faustina") of an antiproton found in film exposed by the Segre group, 1955. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1930-1990/PARTICLE-PHYSICS/ANTIPROTON/tags/96602968:	LBL NEWS Magazine, Vol. 6, No. 3, Fall 1981,  p. 84 | Another Nobel Prize announcement on a Lab blackboard. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1930-1990/PARTICLE-PHYSICS/OTHER/tags/96904562:	Magnet  Vol. 7, No. 3, March 1963 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1930-1990/PARTICLE-PHYSICS/OTHER/tags/96904565:	Magnet  Vol. 7, No. 6, June 1963 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1930-1990/PARTICLE-PHYSICS/OTHER/tags/96904751:	Magnet Vol. 8, No. 7, July 1964, p. 8
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1930-1990/PARTICLE-PHYSICS/OTHER/tags/96904754:	Magnet Vol. 9, No. 9, September 1965, p. 3
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1930-1990/PARTICLE-PHYSICS/OTHER/tags/96904761:	Magnet Vol. 11, No. 11, November 1967, p. 3 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1930-1990/PARTICLE-PHYSICS/OTHER/tags/96904771:	Magnet Vol. 10, No. 9, September 1966, p. 11 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1930-1990/PARTICLE-PHYSICS/OTHER/tags/96904774:	Magnet Vol. 11, No. 3, March 1967, p. 3 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1930-1990/PARTICLE-PHYSICS/OTHER/tags/96A04848:	Magnet Vol. 12, No. 10, October 1968, p. 5 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1930-1990/PARTICLE-PHYSICS/OTHER/tags/96A04849:	Magnet, Vol. 12, No. 10, October 1968, p. 7
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1930-1990/PARTICLE-PHYSICS/OTHER/tags/96A04854:	Magnet Vol. 12, No. 10, October 1968, p. 11 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1930-1990/PARTICLE-PHYSICS/OTHER/tags/96A04855:	Magnet Vol. 12, No. 10, October 1968, p. 11 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1930-1990/PARTICLE-PHYSICS/OTHER/tags/96A04856:	Magnet Vol. 12, No. 10, October 1968, p. 12 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1930-1990/PARTICLE-PHYSICS/OTHER/tags/96A04857:	Magnet Vol. 12, No. 10, October 1968, p. 13 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1930-1990/PARTICLE-PHYSICS/OTHER/tags/96A04858:	Magnet Vol. 12, No. 10, October 1968, p. 14 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1930-1990/PARTICLE-PHYSICS/OTHER/tags/96A04859:	Magnet Vol. 12, No. 10, October 1968, p. 15 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1930-1990/PARTICLE-PHYSICS/OTHER/tags/96A04898:	Magnet Vol. 13, No. 5, May 1969, p. 1 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1930-1990/PARTICLE-PHYSICS/OTHER/tags/96A04899:	Magnet Vol. 13, No. 5, May 1969, p. 8 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1930-1990/PARTICLE-PHYSICS/OTHER/tags/96A04900:	Magnet Vol. 13, No. 5, May 1969, p. 8 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1930-1990/PARTICLE-PHYSICS/OTHER/tags/96A04901:	Magnet Vol. 13, No. 5, May 1969, p. 8 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1930-1990/PARTICLE-PHYSICS/OTHER/tags/96A04909:	Magnet Vol. 13, No. 7/8, July/August 1969, p.  4 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1930-1990/PARTICLE-PHYSICS/OTHER/tags/97200325:	Magnet, Vol. 14, No. 12, December 1970
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1930-1990/PARTICLE-PHYSICS/OTHER/tags/97200330:	Magnet, Vol. 15, No. 9, Sept. 1971, p. 3
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1930-1990/PARTICLE-PHYSICS/OTHER/tags/pg59_diagram2:	LBL News, Vol.6, No.3, Fall 1981 |  Schematic of the experiment of Steinberger et al. Coincidences registered as a function of the angles [alpha] and [beta] agreed with thi hypothesis that the photons, which created the pairs that activated the countrs, were the only decay products of a neutral relativistic pion, 1950. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1930-1990/PARTICLE-PHYSICS/PSI-CHARM/tags/97200339:	Magnet, Vol. 18, Nos. 11-12, Nov.-Dec. 1974
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1930-1990/PARTICLE-PHYSICS/PSI-CHARM/tags/97200634:	Magnet, Vol. 18, Nos. 11-12, Nov.-Dec. 1974, p. 8 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1930-1990/PARTICLE-PHYSICS/PSI-CHARM/tags/97200635:	Magnet, Vol. 18, Nos. 11-12, Nov.-Dec. 1974, p. 8
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1930-1990/PARTICLE-PHYSICS/RESONANCES/tags/96703040:	LBL NEWS Magazine, Vol.6, No.3, Fall 1981, p. 95 |  Evidence for the first Berkeley "resonance," a brief combination of a L particle and two pions called Y*(1385).  
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1930-1990/PARTICLE-PHYSICS/RESONANCES/tags/96703041:	LBL NEWS Magazine, Vol.6, No.3, Fall 1981, p. 95 |  Correlation evidence for the Y*(1405) hyperon resonance.
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1930-1990/PARTICLE-PHYSICS/RESONANCES/tags/96904446:	Magnet, Vol. 2, No. 2,  February 1958 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1930-1990/PARTICLE-PHYSICS/RESONANCES/tags/96904448:	Magnet,  Vol. 3, No. 4, April 1959 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1930-1990/PARTICLE-PHYSICS/RESONANCES/tags/96904449:	Magnet, Vol. 3, No. 4, April 1959 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1930-1990/PARTICLE-PHYSICS/RESONANCES/tags/96904451:	Magnet, Vol. 3, No. 8, August 1959 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1930-1990/PARTICLE-PHYSICS/RESONANCES/tags/96904538:	Magnet  Vol. 5, No. 9, September 1961
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1930-1990/PARTICLE-PHYSICS/RESONANCES/tags/96904561:	Magnet  Vol. 7, No. 1, January 1963 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1930-1990/PARTICLE-PHYSICS/RESONANCES/tags/96904753:	Magnet Vol. 9, No. 5, May 1965, p. 5
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1930-1990/PARTICLE-PHYSICS/RESONANCES/tags/97200327:	Magnet, Vol. 15, Nos. 1-2, Jan.-Feb. 1971
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1930-1990/MANHATTAN-PROJECT/tags/65-3994:	LBL News, Vol.6, No.3, Fall 1981 |  The Trinity test, first man-made nuclear explosion, Alamagordo, New Mexico, July 16, 1945. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1930-1990/MANHATTAN-PROJECT/tags/96602769:	LBL News, Vol.6, No.3, Fall 1981, p. 45 | Newspaper headlines on August 7, 1945, revealed to the Bay Area public for the first time that the laboratory had played a crucial role in the war effort.  Image is cropped. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/tags/1993Highlights_pg15_topographic:	Topographic map of a gold surface at one-angstrom resolution, showing atoms as small protrusions. Map (below) of the same surface, showing the drag force of friction as the bidirectional AFM tip rocks over the gold atoms.  Lightened areas reveal high friction; darker areass show low frictional drag. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/tags/1993Summer_pg16_image:	Distributed computing will link researchers and resources at different locations and allow visual data to be  carried over high-speed networks. Numerical models based on equations that can be solved by a supercomputer are important to many areas of scientific investigation, including atmospheric behavior such as a thunderstorm's evolution. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/tags/1993Summer_pg19_waves:	This sequence of images, produced by visualizing time-varying data, shows several different steps in a computer animation that simulates elastic wave propogation through a homogenous medium. This simulation, which reveals such phenomena as wave scattering and polarization, is important for a variety of research,  ranging from the inhomogenities in the Earth's crust and upper mantle, to the control of composite elastic materials. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/tags/1993Summer_pg40_1stlight:	Like a rising sun, a phosphor painted target glowed bright orange when struck by a beam of x- rays from LBL's Advanced Light Source (ALS).  The light was produced in a bending magnet beamline that has been developed to serve as an x-ray microprobe. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/tags/1994-95Highlights_pg04_digart:	A computer image, generated on the x-ray fluorescence microprobe beamline, shows that chromium is drawn to highly localized chemical "hot spots" in the soil. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/tags/96703167:	LBL Research Review, Vol. 16, No. 1, Spring 1991, p. 11//Standard Model of Fundamental Particles and Interactions. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/tags/96703170:	LBL Research Review, Vol. 16, No. 3, Fall/Winter 1991, p. 16 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/tags/96703171:	LBL Research Review, Vol. 16, No. 3, Fall/Winter 1991, p. 17 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/tags/96703172:	LBL Research Review, Vol. 16, No. 3, Fall/Winter 1991, p. 19 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/tags/96703173:	LBL Research Review, Vol. 16, No. 3, Fall/Winter 1991, p. 19 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/tags/96703174:	LBL Research Review, Vol. 16, No. 3, Fall/Winter 1991, p. 19 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/tags/96703175:	LBL Research Review, Vol. 16, No. 3, Fall/Winter 1991, p. 19 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/tags/96703215:	LBL Research Review, Vol. 17, No. 2, Summer 1992, p. 31 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/tags/96703219:	LBL Research Review, Vol. 18, No. 1, Spring 1993, p. 22|An STM image reveals the topography of a graphitic layer of carbon on platinum, produced by heating the platinum crystal in ultrahigh vacuum to more than 1300 kelvin. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/tags/96703292:	Highlights 1994-1995, p. 8 | To make blue-light emitting semiconductors, scientists must be able to precisely control their atomic structure. This hollow-anode nitrogen plasma source is used to reduce atomic defects and create maximum luminescence. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/tags/96703293:	Highlights 1994-1995, p. 8 | To make blue-light emitting semiconductors, scientists must be able to precisely control their atomic structure. This hollow-anode nitrogen plasma source is used to reduce atomic defects and create maximum luminescence. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/tags/96703308:	LBL Research Review, Vol. 10, No. 2, Summer 1985, cover | Computer generated plot shows magnetic field intensities in a cross section of a two-in- one superconducting dipole magnet, a design proposed by LBL for the Superconducting Super Collider. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/tags/96703310:	LBL Research Review, Vol. 11, No. 2, Summer, 1986, cover. | Illustration depicts the change in state of nuclear matter believed to occur as a nucleus- nucleus collision causes quarks and gluons, the components of protons and neutrons, to break free of their existing combinations and rearrange themselves into a plasma. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/tags/96703375:	LBL Research Review, Vol. 14, No. 2, Summer 1989, p. 15.  The "Bestiary of Complex Nuclear Fragments" produced in a collision of carbon and lanthanum nuclei. The arrangement of particles in a distinct ring pattern along the beam path indicates that their source is the decay of a very hot compound nucleus moving at constant velocity. Plots show the velocity distribution of the particles; colors indicate their relative intensity (red is highest, blue lowest). 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/tags/96703424:	LBL Research Review, Vol. 14, No. 2, Summer 1989, p. 15.  The "Bestiary of Complex Nuclear Fragments" produced in a collision of carbon and lanthanum nuclei. The arrangement of particles in a distinct ring pattern along the beam path indicates that their source is the decay of a very hot compound nucleus moving at constant velocity. Plots show the velocity distribution of the particles; colors indicate their relative intensity (red is highest, blue lowest). 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/tags/96703425:	LBL Research Review, Vol. 14, No. 2, Summer 1989, p. 20.  In the Atomic Resolution Microscope, a beam of electrons from an accelerator (1) on the top floor passes through condenser lenses (2) that use magnetic fields to focus the electrons to illuminate the specimen (3). Objective lenses (4) magnify and refocus to make the first image, which is viewed (5) and projected into a still camera (6) or video camera(7). Direct interaction between the microscope and the center's computer facilitates operation and interpretation of the images. In the basement, a massive concrete structure supports the microscope, and the rubber tires filled with compressed air hold it steady. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/tags/96703465:	LBL Research Review, Vol. 14, No. 4, Winter 1989, p. 29. At extremely high pressure, hydrogen gas is transformed into a monatomic metal, a distorted structure of three repeating planes. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/tags/96703492:	LBL Research Review, Vol. 15, No. 2, Summer 1990, p. 24 | This small-angle scattering system uses a special tungsten-carbon mirror to gather and focus soft x- rays without loss of flux. This brings micron- and submicron-sized objects within imaging range. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/ADVANCED-LIGHT-SOURCE/tags/96703217:	LBL Research Review, Vol. 18, No. 1, Spring 1993, p. 5|Beneath the historic dome that now tops the Advanced Light Source (ALS), girder assemblies for the booster synchrotron are lifted by crane and lowered into the concrete shielding tunnel. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/AFRD/tags/96803698:	Accelerator & Fusion Research Division, Summary of Activities, December 1991, p. xiii.  Progress shot of the Advance Light Source. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/AFRD/tags/96803699:	Accelerator & Fusion Research Division, Summary of Activities, December 1991, p. xiii.  The multiple straight sections in the ALS can each accommodate a magnetic insertion device to enhance synchrotron-light production; the bending magnets between the straight sections produce useful synchrotron radiation as well.  Research with synchrotron radiation is both conducted and supported by the Center for X-Ray Optics; examples of recent work include this Fresnel zone-plate lens whose uses include an award-winning x-ray spectromicroscope. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/AFRD/tags/96803700:	Accelerator & Fusion Research Division, Summary of Activities, December 1991, p. 2-6.  Neutral Beams and Current Drive:  In addition to their primary role of heating the plasma, injected neutral beams help confine and control it.  In a tokamak, the plasma is confined by the combination of two principal magnetic fields:  a toroidal field in the plane of the torus and a poloidal field wrapped around it, as illlustrated. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/AFRD/tags/96803701:	Accelerator & Fusion Research Division, Summary of Activities, December 1991, p. 2-10.  The Mevva V ion source was designed specifically for ion implantation.  It incorporates a broad-beam extractor (10 cm in diameter) and a multiple cathode assembly (18 separate cathodes).  The "Gatling gun" cathode array, like the Mevva concept itself, is a fairly direct spinoff from injector research and development for the SuperHILAC heavy-ion linear accelerator. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/AFRD/tags/96803702:	Accelerator & Fusion Research Division, Summary of Activities, December 1991, p. 3-3.  Part of a sequence of photos shows the Building 6 area during and after conventional construction of the Advance Light Source.  The injection complex, including the booster synchrotron, is under the domeÐa Berkeley landmark preserved in the ALS design.  The storage ring is being installed on the ground floor of the 61000-square-foot addition surrounding the dome, and provisions are included for eventual construction of office and laboratory space on the floor above. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/AFRD/tags/96803703:	Accelerator & Fusion Research Division, Summary of Activities, December 1991, p. 3-3.  Part of a sequence of photos shows the Building 6 area during and after conventional construction of the Advance Light Source.  The injection complex, including the booster synchrotron, is under the domed Berkeley landmark preserved in the ALS design.  The storage ring is being installed on the ground floor of the 61000-square-foot addition surrounding the dome, and provisions are included for eventual construction of office and laboratory space on the floor above. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/AFRD/tags/96803704:	Accelerator & Fusion Research Division, Summary of Activities, December 1991, p. 3-3.  Part of a sequence of photos shows the Building 6 area during and after conventional construction of the Advance Light Source.  The injection complex, including the booster synchrotron, is under the domeÐa Berkeley landmark preserved in the ALS design.  The storage ring is being installed on the ground floor of the 61000-square-foot addition surrounding the dome, and provisions are included for eventual construction of office and laboratory space on the floor above. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/AFRD/tags/96803705:	Accelerator & Fusion Research Division, Summary of Activities, December 1991, p. 3-7.\\Girders for the arcs of the storage ring are currently being supplied by the mechanical shops and installed in the ALS building. Note the antivibration floor mounts, which are necessary for the high degree of beam stability implicit in the photon-beam requirements of Advance Light Source users. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/AFRD/tags/96803706:	Accelerator & Fusion Research Division, Summary of Activities, December 1991, p. 3-7.  Installation of storage ring segments for ALS. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/AFRD/tags/96803707:	Accelerator & Fusion Research Division, Summary of Activities, December 1991, p. 4-3\\A high- resolution Fresnel zone-plate lens is shown during processing.  The tri-levvel resist has been etched and is ready for electroplating with nickel.  The smallest zone width is   300 Angstrom.  The lenses are produced in an ongoing collaboration in which a CXRO scientist works in IBM's Nanostructure Technology Group at the Thomas J. Watson Research Center in Yorktown Heights, New York. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/AFRD/tags/96803708:	Accelerator & Fusion Research Division, Summary of Activities, December 1991, p. 4-9\\The hard x-ray microprobe has been used to achieve 1-mu m spatial resolution, along with femtogram elemental sensitivity, at Beamline X26 of Brookhaven National Laboratory's National Synchrotron Light Source. The heart of the microprobe is a pair of W/C multilayer mirrors used at grazing incidence in Kirkpatrick-Baez geometry.  They focus the beam of synchrotron radiation to a small, intense spot on the object, which fluoresces with x-rays characteristic of its elemental composition.  The fluorescence x-rays are detected and analyzed by a lithium-drifted silicon detector, which is placed orthogonally to the incident beam to reduce the scattered background. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/AFRD/tags/96803709:	Accelerator & Fusion Research Division, Summary of Activities, 1991, p. 4-9\\The hard x-ray microprobe has been used to achieve 1-mu m spatial resolution, along with femtogram elemental sensitivity, at Beamline X26 of Brookhaven National Laboratory's National Synchrotron Light Source. The heart of the microprobe is a pair of W/C multilayer mirrors used at grazing incidence in Kirkpatrick-Baez geometry.  They focus the beam of synchrotron radiation to a small, intense spot on the object, which fluoresces with x-rays characteristic of its elemental composition.  The fluorescence x-rays are detected and analyzed by a lithium-drifted silicon detector, which is placed orthogonally to the incident beam to reduce the scattered background.  The vertical and horizontal spatial resolutions shown here were obtained by scanning a sharp knife edge across the beam.  The resolution in both cases is 2 mu m full width at half maximum. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/AFRD/tags/96803710:	Accelerator & Fusion Research Division, Summary of Activities, December 1991, p. 6-4\\Parts of the collar pack for a quadrupole, used for the assembly of a magnet.  During magnet collaring, a hydraulic press compresses the collar pack enough for tapered keys to be driven into the slots in the collar as the external pressure is relieved. The collar pack is thus drawn tightly around the coils resulting in a stable assembly that puts a pressure of several thousand pounds per square inch on the windings. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/AFRD/tags/96803711:	Accelerator & Fusion Research Division, Summary of Activities, December 1991, p. 6-4\\Parts of the collar pack for a quadrupole, used for the assembly of a magnet.  During magnet collaring, a hydraulic press compresses the collar pack enough for tapered keys to be driven into the slots in the collar as the external pressure is relieved. The collar pack is thus drawn tightly around the coils resulting in a stable assembly that puts a pressure of several thousand pounds per square inch on the windings. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/AFRD/tags/96803712:	Accelerator & Fusion Research Division, Summary of Activities, December 1991, p. 6-4\\Parts of the collar pack for a quadrupole, used for the assembly of a magnet.  During magnet collaring, a hydraulic press compresses the collar pack enough for tapered keys to be driven into the slots in the collar as the external pressure is relieved. The collar pack is thus drawn tightly around the coils resulting in a stable assembly that puts a pressure of several thousand pounds per square inch on the windings. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/AFRD/tags/96803713:	Accelerator & Fusion Research Division, Summary of Activities, December 1991, p. 6-4\Parts of the collar pack for a quadrupole, used for the assembly of a magnet.  During magnet collaring, a hydraulic press compresses the collar pack enough for tapered keys to be driven into the slots in the collar as the external pressure is relieved. The collar pack is thus drawn tightly around the coils resulting in a stable assembly that puts a pressure of several thousand pounds per square inch on the windings. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/AFRD/tags/96803714:	Accelerator & Fusion Research Division, Summary of Activities, December 1991, p. 6-4\\    A stage in the assembly of a magnet include winding the layers of superconducting cable on a mandrel, compressing and heating this assembly inside a precision mold, installing collars, and finally applying and welding the stainless steel jacket at the outer edge of the cold mass.  During magnet collaring,a hydraulic press compresses the collar pack enough for tapered keys to be driven into the slots in the collar as the external pressure is relieved. The collar pack is drawn tightly around the coils, resulting in a stable assembly that puts  pressure of several thousand pounds per square inch on the windings. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/AFRD/tags/96803719:	Accelerator & Fusion Research Division, Summary of Activities, December 1991, p. 6-4.\\ A stage in the assembly of a magnet include winding the layers of superconducting cable on a mandrel, compressing and heating this assembly inside a precision mold, installing collars, and finally applying and welding the stainless steel jacket at the outer edge of the cold mass.  During magnet collaring,a hydraulic press compresses the collar pack enough for tapered keys to be driven into the slots in the collar as the external pressure is relieved. The collar pack is drawn tightly around the coils, resulting in a stable assembly that puts  pressure of several thousand pounds per square inch on the windings. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/AFRD/tags/96803720:	Accelerator & Fusion Research Division, Summary of Activities, December 1991, p. 6-4.   Shown is the five-meter winding machine with Alex Brendel.  A stage in the assembly of a magnet include winding the layers of superconducting cable on a mandrel, compressing and heating this assembly inside a precision mold, installing collars, and finally applying and welding the stainless steel jacket at the outer edge of the cold mass. a hydraulic press compresses the stainless-steel jacket at the outer edge of the cold mass. During magnet collaring,a hydraulic press compresses the collar pack enough for tapered keys to be driven into the slots in the collar as the external pressure is relieved. The collar pack is drawn tightly around the coils, resulting in a stable assembly that puts  pressure of several thousand pounds per square inch on the windings. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/AFRD/tags/96803721:	Accelerator & Fusion Research Division, Summary of Activities, December 1991, p. 6-4.\\    A stage in the assembly of a magnet include winding the layers of superconducting cable on a mandrel, compressing and heating this assembly inside a precision mold, installing collars, and finally applying and welding the stainless steel jacket at the outer edge of the cold mass.  During magnet collaring,a hydraulic press compresses the collar pack enough for tapered keys to be driven into the slots in the collar as the external pressure is relieved. The collar pack is drawn tightly around the coils, resulting in a stable assembly that puts  pressure of several thousand pounds per square inch on the windings. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/AFRD/tags/96803722:	Accelerator & Fusion Research Division, Summary of Activities, December 1991, p. 6-8\\Close-up of a typical piece of "Rutherford-style" cable. Thousands of fine filaments made of superconductor such as niobium-titanium in a copper matrix, are braided into strands of wire, which are then formed into a flattened, keystoned cable in the cabling machine. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/AFRD/tags/96803723:	Accelerator & Fusion Research Division, Summary of Activities, December 1991, p. 7-10\\A schematic phase diagram for nuclear matter shows some of the states and transformations predicted by various theories.  The normal state of nuclear matter can be characterized as liquid.  It may undergo phase transitions to a hadron gas at relatively low densities or, at higher densities, to some condensed phase such as a pion condensate or a superdense nucleus containing thousands of nucleons.  Under extreme conditions, the hadrons themselves are expected to break down into "deconfined" quarks and gluons; such conditions are thought to have existed in the first few fractions of a second after the Big Bang, and are thought to exist today in supernovae.  Such extreme conditions can be recreated at a laboratory scale through central collisions between nuclei at extreme relativitic energies. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/AFRD/tags/96803724:	Accelerator & Fusion Research Division, Summary of Activities, December 1991, p. 7-14\\In the radiosurgical instrument arrangement diagrammed here, an energy-absorbing wax or Lucite bolus matches the depth of the Bragg peak to the thickness of the tumor, while collimators control the cross section of beam. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/AFRD/tags/96803725:	Accelerator & Fusion Research Division, Summary of Activities, December 1992, p. 2-10 | As part of an array of proof-of-concept tests, our DC Broad-Beam High-Current Metal Ion Source was used to produce a 10-A, 100-keV beam of Ti ions.  (Due to the limitations of our power supply, the 100-keV test was conducted in pulsed mode.)  Scaled up in a straightforward manner and incorporated into a complete materials-processing system, this technology could make some types of industrial ion implantation several orders of magnitude faster, accomplishing in minutes what now takes a day. Here the 50-cm-diameter electrodes are shown with previous generations of our metal-vapor ion source technology, including a subminiature embodiment. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/AFRD/tags/96803726:	Accelerator & Fusion Research Division, Summary of Activities, December 1992, p. 6-17\\The Raster Scanner was commissioned for clinical use in 1991. It scans the rigid heavy-ion beam back and fourth much like the electron beam in a television's picture tube.  Biological measurements in the proximal peak of the field, using neon ions have shown results as good as those of the "wobbler" beam-delivery system. Innovation such as the Raster Scanner, especially in beam delivery systems, will offer excellent technology-transfer potential as medical accelerators are built and improved worldwide. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/AFRD/tags/96803754:	Accelerator & Fusion Research Division, Summary of Activities, April 1994, p. xiii\\Wayne McKinney, of Lawrence Berkeley Lab, at Rocketdyne with mirror. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/AFRD/tags/96803755:	Accelerator & Fusion Research Division, Summary of Activities, April 1994, p. xix\\The Cyclotrino, a compact cyclotron, uses permanent magnets rather than electromagnets. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/AFRD/tags/96803756:	Accelerator & Fusion Research Division, Summary of Activities, April 1994, p. 1-16\\As shown by this photo of the Thermonuclear Fusion Test Reactor at the Princeton Plasma Physics Laboratory, neutral- beam systems of conventinal design seem to occupy more space than the tokamak itself.  An LBL idea-- merging the beamlets from a multi-aperture preaccelerator into one intense beam--can help greatly reduce the size of neutral beam injection systems for future tokamaks.  In 1993 LBL tested this idea in a highly encouraging joint experiment with the Japan Atomic Energy Institute. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/AFRD/tags/96803757:	Accelerator & Fusion Research Division, Summary of Activities, April 1994, p. 2-3\\ALS dedication with (left to right) Jax Marx, Don Perlman, Martha Krebs, David Shirley, Gail Wilson (Governor's wife), Brian Kincaid, Charles Shank (director of LBL) and Hermann Grunder. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/AFRD/tags/96803758:	Accelerator & Fusion Research Division, Summary of Activities, April 1994, p. 2-9\\The bend magnets that principally determine the electron beam's course around the storage ring also cause it to give off a fan-shaped beam of synchrotron radiation.  The spectrum is broad and continuous; its characteristics are fixed by the strength of the bend magnet and the energy of the electron beam.  The kind of magnetic insertion device known as a "wiggler" deflects the electron beam through an angle much larger than the natural emission angle of the synchrotron radiation.  This produces a broad fan of radiation much like that of a bend magnet, but much more intense and with a continuous spectrum that can be tuned by varying the wiggler's gap.  Another kind of insertion device, an undulator, deflects the electrons rough a smaller angle so that light waves of certain wavelengths reinforce or cancel each other at certain angles.  The result is a narrow cone of partially coherent (that is, somewhat laserlike) radiation. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/AFRD/tags/96803759:	Accelerator & Fusion Research Division, Summary of Activities, April 1994, p. 2-9\\The bend magnets that principally determine the electron beam's course around the storage ring also cause it to give off a fan-shaped beam of synchrotron radiation.  The spectrum is broad and continuous; its characteristics are fixed by the strength of the bend magnet and the energy of the electron beam.  The kind of magnetic insertion device known as a "wiggler" deflects the electron beam through an angle much larger than the natural emission angle of the synchrotron radiation.  This produces a broad fan of radiation much like that of a bend magnet, but much more intense and with a continuous spectrum that can be tuned by varying the wiggler's gap.  Another kind of insertion device, an undulator, deflects the electrons rough a smaller angle so that light waves of certain wavelengths reinforce or cancel each other at certain angles.  The result is a narrow cone of partially coherent (that is, somewhat laserlike) radiation. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/AFRD/tags/96803760:	Accelerator & Fusion Research Division, Summary of Activities, April 1994, p. 2-9\\The bend magnets that principally determine the electron beam's course around the storage ring also cause it to give off a fan-shaped beam of synchrotron radiation.  The spectrum is broad and continuous; its characteristics are fixed by the strength of the bend magnet and the energy of the electron beam.  The kind of magnetic insertion device known as a "wiggler" deflects the electron beam through an angle much larger than the natural emission angle of the synchrotron radiation.  This produces a broad fan of radiation much like that of a bend magnet, but much more intense and with a continuous spectrum that can be tuned by varying the wiggler's gap.  Another kind of insertion device, an undulator, deflects the electrons rough a smaller angle so that light waves of certain wavelengths reinforce or cancel each other at certain angles.  The result is a narrow cone of partially coherent (that is, somewhat laserlike) radiation. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/AFRD/tags/96803761:	Accelerator & Fusion Research Division, Summary of Activities, April 1994, p. 2-9\\The bend magnets that principally determine the electron beam's course around the storage ring also cause it to give off a fan-shaped beam of synchrotron radiation.  The spectrum is broad and continuous; its characteristics are fixed by the strength of the bend magnet and the energy of the electron beam.  The kind of magnetic insertion device known as a "wiggler" deflects the electron beam through an angle much larger than the natural emission angle of the synchrotron radiation.  This produces a broad fan of radiation much like that of a bend magnet, but much more intense and with a continuous spectrum that can be tuned by varying the wiggler's gap.  Another kind of insertion device, an undulator, deflects the electrons rough a smaller angle so that light waves of certain wavelengths reinforce or cancel each other at certain angles.  The result is a narrow cone of partially coherent (that is, somewhat laserlike) radiation.   The output is sharply peaked at certain frequencies within the overall envelope shown here, and is tunable.. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/AFRD/tags/96803762:	Accelerator & Fusion Research Division, Summary of Activities, April 1994, p. 4-3\\This machine has fabricated superconducting cable of up to 60 strands with keystoned, rectangular, or other profiles. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/AFRD/tags/96803763:	Accelerator & Fusion Research Division, Summary of Activities, April 1994, p. 5-8 | An example of the technology advancements from the Bevalac biomedical program is the Raster Scanner Delivery System. The Raster Scanner, commissioned for clinical use in 1991, was recognized with an R&D 100 award from Research and Development Magazine in 1992 as one of the year's 100 most significant innovations.  It scans the rigid heavy-ion beam back and forth much like the electron beam in a television's picture tube. Biological measurements in the proximal peak of the field, using neon ions, showed results at least as good as those of the "wobbler" beam-delivery system,itself a previous R&D 100 winner. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/AFRD/tags/96803764:	Accelerator & Fusion Research Division, Summary of Activities, April 1994, p. 5-8\\Another example of the precision apparatus needed is this patient positioner for the UC Davis eye treatment center, being demonstrated by its designer and builder, LBL mechanical technician Mario Cepeda. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/ASTROPHYSICS/tags/1989Winter_pg22_supernova:	LBL Research Review, Vol. 14, No. 4 Winter 1989 The discovery of Supernova 1988L:  Scan of a galaxy in 1987 (top photo) shows no supernova.  A year later, a supernova appears just above the galaxy core (center photo).  The supernova remains (see arrows) after reference image is subtracted (bottom photo) 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/ASTROPHYSICS/tags/96703214:	LBL Research Review, Vol. 17, No. 1, Spring 1992, p. 43| A map of the cosmos reveals minute temperature variations in the cosmic microwave background radiation: red regions are warmer and blue areas cooler than the average. The map shows the plane of the Milky Way galaxy horizontally. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/ASTROPHYSICS/tags/96703288:	Highlights 1993, p. 27 | This digital CCD image was taken on July 11, 1991 at Hapuna Beach Hawaii, by Hands-On University high school teachers Curtis S. Craig of American Fork High School, American Fork, Utah, and Bruce Downing of Albany High School, Albany, California, during a DOE supported Hands-On Universe eclipse expedition and teacher- training workshop. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/ASTROPHYSICS/tags/96703309:	LBL Research Review, Vol. 11, No. 1, Spring 1986, p. 14. | Designed for both visible and infrared sightings, Keck Observatory's Ten Meter Telescope (TMT) is actually two telescopes in one. The different structural requirements of these dual capabilities are met with an open-frame support system that provides maximum stiffness with a minimum amount of material. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/ASTROPHYSICS/tags/96703336:	LBL Research Review, Vol. 12, No. 1, Spring 1987, p.3 and cover | Depicts the birth of the universe as described by inflation theory, the most theoretically consistent explanation of the origin of the universe to emerge from modern physics. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/ASTROPHYSICS/tags/96703370:	LBL Research Review, Vol. 14, No. 1, Spring 1989, p. 3.  Supernova 1987A (in the lower left corner) in the Large Megallanic Cloud, is where scientists found the evidence for a pulsar on January 18. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/ASTROPHYSICS/tags/96703371:	LBL Research Review, Vol. 14, No. 1, Spring 1989, p. 9.  Atop White Mountain, astrophysicist George Smoot and his team prepare microwave radiometers for ground-based studies of cosmic background at the long-wavelength, low-frequency end of the spectrum. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/ASTROPHYSICS/tags/96703372:	LBL Research Review, Vol. 14, No. 1, Spring 1989, p. 12.  Partial map of the sky brightness at the 3.3 millimeter wavelength shows 'apparent' order anisotropy of the cosmic microwave background radiation. The sky is brightest (white and red areas) in the direction toward which the Earth is moving and dark (blue) in the opposite direction. Small variations are attributed to instrument noise. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/ASTROPHYSICS/tags/96703461:	LBL Research Review, Vol. 14, No. 4, Winter 1989, p. 20.  Richard Muller, founder of the supernova search, poses at the Leuschner Observatory. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/ASTROPHYSICS/tags/96703462:	LBL Research Review, Vol. 14, No. 4, Winter 1989, p. 23.  Graduate student Li-Ping Wang works on assembly of the search group's new compact 30-inch telescope. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/ASTROPHYSICS/tags/96703463:	LBL Research Review, Vol. 14, No. 4, Winter 1989, p. 24.  The brilliant death of an aged star: (left) arrow points to the blue supergiant star that exploded to produce supernova 1987A in the Large Magellanic Cloud. (Right) The same region of the Large Magellanic Cloud after the supernova explosion. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/ASTROPHYSICS/tags/96703464:	LBL Research Review, Vol. 14, No. 4, Winter 1989, p. 25.  An artist's conception of possible geometries of the universe: an open (saddle- shaped) universe that would expand forever; a flat one that would expand forever at a gradually decreasing rate; and a closed (spherical) one that would eventually contract and collapse. Unlike two-dimensional drawings, the universe has no edges. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/ASTROPHYSICS/tags/96703491:	LBL Research Review, Vol. 15, No. 2, Summer 1990, p. 11 | Astrophysicist Bernard Sadoulet, testing detector electronics here, heads the effort to develop innovative new detectors that will search for dark matter particles. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/COMPUTER-SCIENCE/tags/96703224:	LBL Research Review, Vol. 18, No. 2, Summer 1993, p. 14 | Demonstrating the capabilities of video conferencing are Bill Johnston (left) and Van Jacobson. The frog image (upper right) was developed as part of an educational project in biological imaging. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/COMPUTER-SCIENCE/tags/96703231:	Highlights 1993, p. 24 |  Lawrence Berkeley Laboratory and Seagate Magnetics of Fremont, California, a major manufacturer of computer disk drives, signed a CRADA to develop superior disk drives. Shown here is a depiction of a crack in a new ceramic material. The image was created by LBL- designed software called ChemMap. LBL researchers are assessing ChemMap's use as a nondestructive characterization tool for the evaluation of thin- film disk media. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/EARTH-SCIENCES/tags/1993Highlights_pg17_chart:	This Minnesota County map shows average "equivalent uranium" concentrations in parts per million, which are proportional to the radium concentrations in the soil.  LBL researchers have found that these concentrations correlate closely with indoor radon concentrations.  This map was derived from aerial monitoring conducted by the U.S. Geological Survey in the 1970s for the National Uranium Resource Evaluation program. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/EARTH-SCIENCES/tags/1993Highlights_pg17_chart2:	This U.S. map shows average "equivalent uranium" concentrations in parts per million, which are proportional to the radium concentrations in the soil.  LBL researchers have found that these concentrations correlate closely with indoor radon concentrations. The map was derived from aerial monitoring conducted by the U.S. Geological Survey in the 1970's National Uranium Resource Evaluation program. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/EARTH-SCIENCES/tags/1994-95Highlights_pg11_drill:	1994-95 Highlights, p. 11. LBL earth scientists test a drill that blasts super-cold nitrogen gas as it bores, creating frozen holes that won't collapse even in loose or sandy soil. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/EARTH-SCIENCES/tags/96703063:	LBL News, Vol.6, No.3, Fall 1981, p. 102 |  An abandoned iron mine in Stripa, Sweden, is the site of nuclear- waste disposal studies under the direction of LBL geologists and the Swedish government. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/EARTH-SCIENCES/tags/96703065:	LBL News, Vol.6, No.3, Fall 1981, p. 104 |  An atmospheric research laboratory on wheels is part of LBL's air-pollution research program. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/EARTH-SCIENCES/tags/96703066:	LBL News, Vol.6, No.3, Fall 1981, p. 104 | Temperature and radioactivity of a hot geothermal pool in Ruby Valley, Nevada, are measured by LBL scientists in a comprehensive study of geothermal energy sources. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/EARTH-SCIENCES/tags/96703139:	LBL NEWS Magazine, Vol. 5, No. 4, Winter 1980- 1981, p. 21. Energy source: Moderate-temperature geothermal areas like East Mesa are much more plentiful in the U.S. than the superhot, steam- producing regions now being tapped. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/EARTH-SCIENCES/tags/96703374:	LBL Research Review, Vol. 14, No. 2, Summer 1989, p. 2. The greenhouse effect is created when gases in the atmosphere admit the sun's rays but trap heat radiated back by Earth. Heat is retained in the atmosphere as carbon dioxide and other greenhouse gases abosorb the infared rays from Earth. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/EARTH-SCIENCES/tags/96703472:	LBL Research Review, Vol. 15, No. 1, Spring 1990, p. 3.  Donald DePaolo, director of LBL's Isotope Geochemistry Center, works at a mass spectrometer in one of the Center's new ultraclean laboratories designed for the study of radiogenic isotopes. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/EARTH-SCIENCES/tags/96703475:	LBL Research Review, Vol. 15, No. 1, Spring 1990, p. 36.  LBL's Rick Russo and visiting scientist Dorys Rojas examine the system they are developing to detect, monitor and quantify radioactive contaminants in groundwater. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/ENERGY-ENVIRONMENT/tags/1992Spring_pg25_chart:	LBL Research Review, Spring 1992, p. 25 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/ENERGY-ENVIRONMENT/tags/1992Spring_pg29_diagram:	LBL Research Review, Spring 1992, p. 29/The electrochromic device developed at LBL has five layers sandwiched between glass or plastic, but is less than a micron thick. Electromic "smart" windows will be able to provide dynamic control of daylight levels and interior temperature. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/ENERGY-ENVIRONMENT/tags/96703360:	LBL Research Review, Vol. 13, No. 1, Spring 1988, p. 3.  Author Sam Berman, who heads LBL's Lighting Group, adjusts a device used to maintain constant temperature control on a fluorescent lamp undergoing tests. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/ENERGY-ENVIRONMENT/tags/96703473:	LBL Research Review, Vol. 15, No. 1, Spring 1990, p. 17. Frank McLarnon, deputy leader of the electrochemical group (left) and Elton Cairns, head of LBL's Energy Conversion and Storage Program, look over an experimental array of zinc/nickel-oxide cells. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/LIFE-SCIENCES/tags/1993Highlights_pg10_image:	With the three-dimensional structure of CDK2 now determined, several research groups, including some biotechnology companies, are beginning to design potential drugs that bind and inactivate this protein. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/LIFE-SCIENCES/tags/1994-95Highlights_pg12_digart1:	Pores embedded in nuclear membrane or an underlying lamin protein shell appear as a ring surrounding protein 4.1. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/LIFE-SCIENCES/tags/1994-95Highlights_pg12_digart2:	1994-95 Highlights, p.12. Protein 4.1 is revealed in the interior of a nucleus stained with another nucleus matrix protein. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/LIFE-SCIENCES/tags/1994-95Highlights_pg12_digart3:	1994-95 Highlights, p. 12. Large storage sites for RNA splicing proteins in the nucleus dwarf neighboring Protein 4.1. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/LIFE-SCIENCES/tags/1994-95Highlights_pg12_digart4:	1994-95 Highlights, p.12.Protein 4.1 is visible near DNA replication centers scattered throughout the nucleus. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/LIFE-SCIENCES/tags/1994-95Highlights_pg25_digart:	1994-95 Highlights, p.25. A PET scan image shows chemical uptake in the brain of a monkey to test the effectiveness of a treatment for Parkinson's disease.  The work is part of an LBL collaboration with Somatix Therapy Corporation. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/LIFE-SCIENCES/tags/96703216:	LBL Research Review, Vol. 17, No. 3, Fall/Winter 1992, p. 11| On the basis of NMR studies, Wemmer and his coworkers were able to verify predictions about the way a small molecule, a relative of distamycin, binds to DNA. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/LIFE-SCIENCES/tags/96703226:	Highlights 1993, p. 3 | Loss of E-cadherin expression, associated with an increased ability for a breast tumor to metastasize, is illustrated by fewer copies of the E-cadherin gene (green spots) than the reference section of the chromosome (orange spots). 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/LIFE-SCIENCES/tags/96703227:	Highlights 1993, p. 7 | This soil sample with an imbedded decomposing plant root was initially uniformly contaminated with soluble selenium. The sample was later imaged with the x-ray fluorescence micro-probe to monitor selenium redistribution. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/LIFE-SCIENCES/tags/96703228:	Highlights 1993, p. 11 |  In this computer- generated model, ribbon diagrams are used to show the architecture of the CDK2 protein. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/LIFE-SCIENCES/tags/96703286:	Highlights 1993, p. 25 | Tendon tissue from 16- day-old fertilized eggs contains many more cells than tissue from a 4-month-old chick, where cells are scattered between tough collagen fibers. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/LIFE-SCIENCES/tags/96703287:	Highlights 1993, p. 25 | A 4-month-old chick, where cells are scattered between tough collagen fibers, contains less tissue than a 16-day-old fertilized eggs. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/LIFE-SCIENCES/tags/96703291:	LBL Research Review, Vol. 18, No. 3, August 1994, p. 29 | Scintillators play a key role in creating PET images such as the one above showing blood flowing in the brain.  They reveal the hidden workings of the human body to researchers while allowing physicians to learn whether a bodily activity is normal or abnormal. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/LIFE-SCIENCES/tags/96703352:	LBL Research Review, Vol. 12, Nos. 3/4, Fall/Winter 1987, cover | The intricately beautiful DNA molecule comes into the spotlight as LBL scientists accelerate efforts to map and sequence the human genome in search of a key to the genetic code. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/LIFE-SCIENCES/tags/96703353:	LBL Research Review, Vol. 12, Nos. 3/4, Fall/Winter 1987, p. 7.  (caption with image)| 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/LIFE-SCIENCES/tags/96703354:	LBL Research Review, Vol. 12, Nos. 3/4, Fall/Winter 1987, p. 12 | (Top) The genetic process. The cell (selected parts). (Left) Mitosis: division of a cell. (Right) Meiosis: division of a sex cell. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/LIFE-SCIENCES/tags/96703355:	LBL Research Review, Vol. 12, Nos. 3/4, Fall/Winter 1987, p. 13.  (caption with image)| 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/LIFE-SCIENCES/tags/96703359:	LBL Research Review, Vol. 13, No. 1, Spring 1988, cover.  Monoclonal antibodies provide a diverse class of receptors that will bind molecules ranging from nucleic acids to synthetic small molecules. Now an LBL team has developed a method to make these receptors catalyze chemical reactions. At the top near the center of this computer-generated model of a catalytic antibody is the combining site, where the action begins. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/LIFE-SCIENCES/tags/96703363:	LBL Research Review, Vol. 13, No. 2, Summer 1988, p. 2  Physicians Thomas Budinger (left) and Peter Valk compare the high-resolution brain images produced at the new Donner 600-Crystal Positron Emission Tomograph. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/LIFE-SCIENCES/tags/96703364:	LBL Research Review, Vol. 13, No. 2, Summer 1988, p. 2.  Physicians Thomas Budinger (left) and Peter Valk compare the high-resolution brain images produced at the new Donner 600-Crystal Positron Emission Tomograph. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/LIFE-SCIENCES/tags/96703365:	LBL Research Review, Vol. 13, No. 2, Summer 1988, p. 11. Tony Vuletich arranges a detector group, containing 16 single-crystal modules, to assemble the 600-crystal tomograph ring. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/LIFE-SCIENCES/tags/96703368:	LBL Research Review, Vol. 13, No. 2, Summer 1988, p. 26.  Sung-Hou Kim sets a sweet protein crystal in place for the x-ray diffraction process that will lead to determination of the crystal structure. Comparison of crystal structures may aid the identification of regions responsible for sweet taste. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/LIFE-SCIENCES/tags/96703369:	LBL Research Review, Vol. 13, Nos. 3/4, Fall/Winter 1988, p. 3. The resolution on this first-ever image of an unaltered DNA double helix was good enough to enable scientists to measure distances between the structure's coils. The image shows an isolated length of DNA making a loop and crossing over on itself. To the left is a fragment of DNA. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/LIFE-SCIENCES/tags/96703373:	LBL Research Review, Vol. 14, No. 1, Spring 1989, p. 24 .  Charles Pascale adjusts a head holder, part of a patient-positioning device that helps ensure that the charged-particle beam hits the tumor precisely. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/LIFE-SCIENCES/tags/96703435:	LBL Research Review, Vol. 14, No. 4, Winter 1989, cover.  A computer graphic, in stereo, of the enzyme lysozyme. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/LIFE-SCIENCES/tags/96703436:	LBL Research Review, Vol. 14, No. 4, Winter 1989, p. 3.  A linear chain of 21 of the amino acids in the enzyme lysozyme folds in on itself with the other amino acids (in white) to create the intricate three-dimensional structure of the enzyme. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/LIFE-SCIENCES/tags/96703437:	LBL Research Review, Vol. 14, No. 4, Winter 1989, p. 3.  A linear chain of 21 of the amino acids in the enzyme lysozyme. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/LIFE-SCIENCES/tags/96703438:	LBL Research Review, Vol. 14, No. 4, Winter 1989, p. 5.  A molecule of substrate approaches the active site of the enzyme lysozyme. Spheres represent the atoms that make up the enzyme and the substrate. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/LIFE-SCIENCES/tags/96703450:	LBL Research Review, Vol. 14, No. 4, Winter 1989, p.5.  A molecule of substrate binds at the active site of the enzyme lysozyme. Spheres represent the atoms that make up the enzyme and the substrate 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/LIFE-SCIENCES/tags/96703452:	LBL Research Review, Vol. 14, No. 4, Winter 1989, p. 7.  The polymer glycogen, a chain of glucose molecules, is made from glucose phosphate by the enzyme glycogen phosphorylase. In the process, the enzyme connects the glucose to the glycogen chain as the phosphate is released. But the accumulated pool of phosphate would cause the process to stop and even to reverse. However, when sucrose (a molecule of fructose linked to glucose) and the enzyme sucrose phosphorylase are added, the enzyme connects a phosphate from the pool to the glucose and the fructose is released. The newly created glucose phosphate joins the pool and the process begins again. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/LIFE-SCIENCES/tags/96703453:	LBL Research Review, Vol. 14, No. 4, Winter 1989, p. 9.  In the synthesis of an enzyme, a recipe for the sequence of amino acids is carried from DNA by messenger RNA (mRNA) in condons - arrangements of three nitrogenous bases for each amino acid. A transfer RNA (tRNA) molecule with a matching anticodon binds the appropriate codon on the mRNA, delivering the correct amino acid, which is attached to the growing protein chain. In site- directed mutagenesis (lower left), a chosen codon is replaced by another so that a different tRNA will bond and a different amino acid will be attached to the chain. A similar technique is used to replace natural amino acids with synthetic, non-natural amino acids (lower right). Here the chosen codon is changed to one that usually signals the end of the protein and has no tRNA to match. It is read by a specially designed and synthesized tRNA carrying the synthetic amino acid. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/LIFE-SCIENCES/tags/96703454:	LBL Research Review, Vol. 14, No. 4, Winter 1989, p. 10. Enzymes containing the various amino acid combinations such as this one with serine/valine/serine (SVS), were created by site- directed mutagenesis from a surviving enzyme. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/LIFE-SCIENCES/tags/96703455:	LBL Research Review, Vol. 14, No. 4, Winter 1989, p. 10.  Enzymes containing the various amino acid combinations such as this one with serine/isoleucine/serine (SIS), were created by site-directed mutagenesis from a surviving enzyme. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/LIFE-SCIENCES/tags/96703456:	LBL Research Review, Vol. 14, No. 4, Winter 1989, p. 10.  Enzymes containing the various amino acid combinations such as this one with threonine/valine/threonine (TVT), were created by site-directed mutagenesis from a surviving enzyme. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/LIFE-SCIENCES/tags/96703457:	LBL Research Review, Vol. 14, No. 4, Winter 1989, p. 10.  Enzymes containing the various amino acid combinations such as this one with threonine/isoleucine/threonine (TIT), were created by site-directed mutagenesis from a surviving enzyme. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/LIFE-SCIENCES/tags/96703459:	LBL Research Review, Vol. 14, No. 4, Winter 1989, p. 10.  Enzymes containing the various amino acid combinations were created by site-directed mutagenesis from this surviving enzyme that has threonine/isoleucine/serine (TIS),in that order. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/LIFE-SCIENCES/tags/96703460:	LBL Research Review, Vol. 14, No. 4, Winter 1989, p. 10.  The total volume of the side chains of three amino acids near the active site of lysozyme proved to be a critical factor in determining the thermal stability of the enzyme. Enzymes containing the various amino acid combinations were created by site-directed mutagenesis from a surviving enzyme (top) that has threonine/isoleucine/serine (TIS) in that order. Chart compares the size of the side-chains (volume is measured in cubic angstroms) to the temperature at which the enzyme loses structure. A small change in volume can result in a large change in stability. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/LIFE-SCIENCES/tags/96703476:	LBL Research Review, Vol. 15, No. 2, Summer 1990, p. 2 and cover.  A computer image depicts a hydroxyl radical attacking the sugar on the back bone of a DNA molecule. Damage will occur after a series of chemical reactions takes place. Clusters of dots indicate reaction areas around the sugar. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/LIFE-SCIENCES/tags/96703477:	LBL Research Review, Vol. 15, No. 2, Summer 1990, p. 4.  Computer model, designed to assess DNA damage from ionizing radiation, shows a hydroxyl radical as it approaches a DNA molecule. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/LIFE-SCIENCES/tags/96703478:	LBL Research Review, Vol. 15, No. 2, Summer 1990, p. 5.  Drawing shows how radiation (top arrow) splits a water molecule to produce a hydrogen atom and a hydroxyl radical. The radical (OH) draws a hydrogen molecule from the sugar (red pentagon) in the back bone. Break occurs after a chain of chemical reactions takes place. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/LIFE-SCIENCES/tags/96703479:	LBL Research Review, Vol. 15, No. 2, Summer 1990, p. 5.  A hydroxyl radical attacks the sugar on the backbone of a DNA molecule to induce damage within a millionth of a second. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/LIFE-SCIENCES/tags/96703489:	LBL Research Review, Vol. 15, No. 2, Summer 1990, p. 6 | Computer model shows how DNA of all plants and animals forms loops, or nucleosomes, around clusters of proteins. Nucleosomes tend to protect DNA from damage by hydroxyl radicals. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/LIFE-SCIENCES/tags/96703490:	LBL Research Review, Vol. 15, No. 2, Summer 1990, p. 6 | Computer model shows how DNA of all plants and animals forms loops, or nucleosomes, around clusters of proteins. Nucleosomes tend to protect DNA from damage by hydroxyl radicals. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/LIFE-SCIENCES/HUMAN-GENOME-PROJECT/tags/96703203:	LBL Research Review, Vol. 17, No. 1, Spring 1992 , p. 8 |A petri dish like this one containing yeast or bacteria cells is placed on one table. The location of colonies within the dish are identified by a charge-coupled device (CCD)  
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/LIFE-SCIENCES/HUMAN-GENOME-PROJECT/tags/96703204:	LBL Research Review, Vol. 17, No. 1, Spring 1992 , p. 8 | Bill Searles of the instrumentation group, is seen behind the Human Genome colony picking machine. When the colony picker is fully operational the group expects it to be able to pick and array as many as a million colonies of yeast or bacteria  a year. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/LIFE-SCIENCES/HUMAN-GENOME-PROJECT/tags/96703205:	LBL Research Review, Vol. 17, No. 1, Spring 1992, p. 8 | Human Genome Center colony picking machine guides the robot's needle into the petri dish containing yeast or bacteria cells.  
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/LIFE-SCIENCES/HUMAN-GENOME-PROJECT/tags/96703206:	LBL Research Review, Vol. 17, No. 1, Spring 1992 , p. 8 | Human Genome Center colony picking machine guides the robot's needle into the petri dish to pick a yeast or bacteria cell colony. Then the carousel is rotated so the needle can deposit the colony in the correct well of a microtiter plate. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/LIFE-SCIENCES/HUMAN-GENOME-PROJECT/tags/96703207:	LBL Research Review, Vol. 17, No. 1, Spring 1992, p. 9 | To map the location of different segments of DNA along a chromosome, yeast artificial chromosomes containing fragments of human DNA are tagged with flourescent markers. These fragments join with the chromosome's DNA where the nucleotides are complementary. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/LIFE-SCIENCES/HUMAN-GENOME-PROJECT/tags/96703208:	LBL Research Review, Vol. 17, No. 1, Spring 1992, p. 9 | For sequencing, DNA fragments are placed on a bed of gel and an electric current is applied. The DNA, which is negatively charged, moves toward the positive electrode. The fragments become arranged by length, with smaller DNA fragments migrating faster. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/LIFE-SCIENCES/HUMAN-GENOME-PROJECT/tags/96703209:	LBL Research Review, Vol. 17, No. 1, Spring 1992, p. 14 | In this low-resolution schematic map, the bands indicate patterns that can be seen under a light microscope with appropriate staining. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/LIFE-SCIENCES/LUNG-RESEARCH/tags/96703319:	LBL Research Review, Vol. 11, No. 3, Fall 1986, p. 3 | Alveoli become visible when the boxed area is viewed with a scanning electron microscope. This overview provides a "road map" of the airways, helping researchers keep track of their position in the lungs during explorations at much higher magnifications. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/LIFE-SCIENCES/LUNG-RESEARCH/tags/96703320:	LBL Research Review, Vol. 11, No. 3, Fall 1986, p. 4 | The Low-Temperature Scanning Electron Microscope (LTSEM) is used to zoom in on a clump of bacteria- fighting macrophage cells attached to the wall of an alveolar airspace. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/LIFE-SCIENCES/LUNG-RESEARCH/tags/96703325:	LBL Research Review, Vol. 11, No. 3, Fall 1986, p. 4 | The Low-Temperature Scanning Electron Microscope (LTSEM) is used to zoom in on a clump of bacteria- fighting macrophage cells attached to the wall of an alveolar airspace. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/LIFE-SCIENCES/LUNG-RESEARCH/tags/96703326:	LBL Research Review, Vol. 11, No. 3, Fall 1986, p. 4 | The Low-Temperature Scanning Electron Microscope (LTSEM) is used to zoom in on a clump of bacteria- fighting macrophage cells attached to the wall of an alveolar airspace. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/LIFE-SCIENCES/LUNG-RESEARCH/tags/96703327:	LBL Research Review, Vol. 11, No. 3, Fall 1986, p. 5 | Resembling a tidal pool, a conventional microscope reveals the surface of an airway to be composed of individual cells covered with about 200 cilia adjoining cells covered with short microvlli. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/LIFE-SCIENCES/LUNG-RESEARCH/tags/96703328:	LBL Research Review, Vol. 11, No. 3, Fall 1986, p. 5 | Resembling a tidal pool, a conventional microscope reveals the surface of an airway to be composed of individual cells covered with about 200 cilia adjoining cells covered with short microvilli. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/LIFE-SCIENCES/LUNG-RESEARCH/tags/96703329:	LBL Research Review, Vol. 11, No. 3, Fall 1986, p. 5 | Resembling a tidal pool, a conventional microscope reveals the surface of an airway to be composed of individual cells covered with about 200 cilia adjoining cells covered with short microvilli. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/LIFE-SCIENCES/LUNG-RESEARCH/tags/96703330:	LBL Research Review, Vol. 11, No. 3, Fall 1986, p. 7 | Frozen-hydrated samples of mouse lung (frame b and d), photographed at -190 degrees C in the LTSEM, provide views of alveolar structures much closer to the water-rich living state than conventional dried samples (frame a and c) and give physicians new, accurate anatomical knowledge. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/LIFE-SCIENCES/TRANSGENIC-MOUSE/tags/96703176:	LBL Research Review, Vol. 16, No. 3, Fall/Winter 1991, p. 22 | Scanning electron micrograph shows normal shape of red blood cells from a transgenic mouse before deoxygenation. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/LIFE-SCIENCES/TRANSGENIC-MOUSE/tags/96703177:	LBL Research Review, Vol. 16, No. 3, Fall/Winter 1991, p. 22 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/LIFE-SCIENCES/TRANSGENIC-MOUSE/tags/96703178:	LBL Research Review, Vol. 16, No. 3, Fall/Winter 1991, p. 22 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/LIFE-SCIENCES/TRANSGENIC-MOUSE/tags/96703179:	LBL Research Review, Vol. 16, No. 3, Fall/Winter 1991, p. 22 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/LIFE-SCIENCES/TRANSGENIC-MOUSE/tags/96703180:	LBL Research Review, Vol. 16, No. 3, Fall/Winter 1991, p. 23 | Steps in the production of a transgenic mouse 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/LIFE-SCIENCES/TRANSGENIC-MOUSE/tags/96703181:	LBL Research Review, Vol. 16, No. 3, Fall/Winter 1991, p. 24 | After several months on high-fat diets, non- transgenic mice developed numerous fatty deposits in their arteries (left) while transgenic mice with high levels of human high-density lipoprotein and ApoA-1 had almost none. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/MATERIALS-SCIENCE/tags/96703062:	LBL News, Vol.6, No.3, Fall 1981, p. 102 |  Lasers have a variety of uses in the Laboratory today; here, a postdoc in the Materials and Molecular Research Division uses a nitrogen-pumped dye-tuned laser to separate a compound into its constituents. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/MATERIALS-SCIENCE/tags/96703064:	LBL News, Vol.6, No.3, Fall 1981, p. 103 |  LBL's national center for electron microscopy features the new 1.5 MeV high-voltage electron microscope, the most powerful in the U. S. today. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/MATERIALS-SCIENCE/tags/96703144:	LBL NEWS Magazine,  Vol. 6, No. 4, Winter 1981- 1982, p. 17. This scanning- electron microscope view shows the superconduction phase of niobium- tin (protruding structures) embedded in a bronze alloy. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/MATERIALS-SCIENCE/tags/96703145:	LBL NEWS Magazine,  Vol. 6, No. 4, Winter 1981- 1982, p. 17. Most promising of the superconduction alloys being considered for magnet coil windings is the niobium-tin compound. Close-up view shows brignt line in center which is unreacted niobium. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/MATERIALS-SCIENCE/tags/96703166:	LBL Research Review, Vol. 16, No. 1, Spring 1991, p. 1 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/MATERIALS-SCIENCE/tags/96703290:	LBL Research Review, Vol. 18, No. 3, August 1994, p. 12 | The Atomic Resolution Microscope (ARM) provides a resolution of 1.6 angstroms, giving scientists an atom-sized view of materials. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/MATERIALS-SCIENCE/tags/96703340:	LBL Research Review, Vol. 12, No. 2, Summer 1987, cover | Demonstrating superconductivity at liquid- nitrogen temperature, three tiny household magnets, joined by wooden toothpicks, levitate over a dish filled with yttrium-barium-copper oxide pellets cooled by liquid nitrogen. This illustration of the Meissner effect, the expulsion of magnetic flux from superconductors, has become the basic test for true superconductivity. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/MATERIALS-SCIENCE/tags/96703350:	LBL Research Review, Vol. 12, No. 2, Summer 1987, p. 2 | Transition temperatures of the new compounds hovered well above the boiling point of liquid nitrogen, and physicists, chemists, materials scientists, engineers and even economists around the world were in a state of exhilaration from which they show no signs of recovering. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/MATERIALS-SCIENCE/tags/96703351:	LBL Research Review, Vol. 12, No. 2, Summer 1987, p. 28 | A three-dimensional view of a polystyrene domain in polystyrene/polybutadiene triblock copolymere. The computer graphic, reconstructed from transmission electron micrographs, shows the packing sequence and individual deviations in the microstructure of an ultrathin copolymer film. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/MATERIALS-SCIENCE/tags/96703426:	LBL Research Review, Vol. 14, No. 2, Summer 1989, p. 23.  Images change profoundly with the thickness of material. Experimental views of mullite, with simulated images inset, at thicknesses of 20, 80 and 160 angstroms show these variations. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/MATERIALS-SCIENCE/tags/96703427:	LBL Research Review, Vol. 14, No. 2, Summer 1989, p. 24.  When aluminum is vaporized and allowed to crystallize on silicon, individual aluminum crystals form in every conceivable orientation to one another. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/MATERIALS-SCIENCE/tags/96703428:	LBL Research Review, Vol. 14, No. 2, Summer 1989, p. 25.  Diffraction patterns from the High-Voltage Electron Microscope show the structure of ionized aluminum on silicon substrate (left) and with silicon removed (right). 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/MATERIALS-SCIENCE/tags/96703429:	LBL Research Review, Vol. 14, No. 2, Summer 1989, p. 25.  The 90-degree orientation of crystals formed in ionized cluster-beam deposition can be seen in this micrograph by comparing the two rectangles. Arrows highlight the grain boundary structure - a ring of atoms with two atoms in the middle. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/MATERIALS-SCIENCE/tags/96703430:	LBL Research Review, Vol. 14, No. 2, Summer 1989, p. 29.  Precipitate-free zones (dark regions) consisting of relatively pure aluminum, appear in aluminum/lithium alloys at crystal grain boundaries, resulting in very soft regions in the material. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/MATERIALS-SCIENCE/tags/96703431:	LBL Research Review, Vol. 14, No. 2, Summer 1989, p. 36.  An atomic resolution image of a 2,1,2,2 bismuth compound shows it to be free of defects. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/MATERIALS-SCIENCE/tags/96703432:	LBL Research Review, Vol. 14, No. 2, Summer 1989, p. 37.  Incommensurate modulation appears in a bismuth compound sample as a series of dark bands in the atomic lattice where atoms have moved off their normal orientation. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/MATERIALS-SCIENCE/tags/96703433:	LBL Research Review, Vol. 14, No. 2, Summer 1989, p. 38.  Researchers are exploring ways to improve both microstructure and sample preparation so that this kind of randomly oriented cornflake-like microstructure can be avoided. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/MATERIALS-SCIENCE/tags/96703434:	LBL Research Review, Vol. 14, No. 2, Summer 1989, p. 41.  Specimens go under the microscope attached to a 3- mm-diameter copper grid. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/MATERIALS-SCIENCE/tags/96703439:	LBL Research Review, Vol. 14, No. 4, Winter 1989, p. 5. | After the substrate binds at the active site of the enzyme lysozyme, a chemical reaction splits the substrate into two products. Spheres represent the atoms that make up the enzyme and the substrate. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/MATERIALS-SCIENCE/tags/96703474:	LBL Research Review, Vol. 15, No. 1, Spring 1990, p. 25.  Steve Visco (left) and Lutgard DeJonghe consult about the new class of polymer cathodes they have invented. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/MATERIALS-SCIENCE/tags/96803989:	LBL Research Review, Vol. 14 No. 2, Summer 1989, p. 22 | The first step in atomic resolution study of yttrium disilicate: a computer generated model of the postulated structure.  The rectangle contains a highly defined display of the same area. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/MATERIALS-SCIENCE/tags/96803990:	LBL Research Review, Vol.14, No. 2, pg.22 | A section (circled, below left) from a very thin area of the sample, showing very little structure, is selected for processing. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/MATERIALS-SCIENCE/tags/96803991:	LBL Research Review, Vol. 14, No. 2, Summer 1989, p. 22-23 | In the atomic resolution study of yttrium disilicate, a fuzzy experimental image (left) is processed to produce an image with clearly defined features (right). 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/MATERIALS-SCIENCE/tags/96803992:	LBL Research Review, Vol. 14, No. 2, Summer 1989, p. 23. | In the atomic resolution study of yttrium disilicate, the processed image is superimposed on the simulated image for comparison. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/PHYSICS/tags/1992Spring_pg33_chart:	LBL Research Review, Spring 1992, p. 33. Three types of neutrinos each associated with one of the three major families of fundamental particles (electron, muon, tau neutrinos).  The association between specific "leptons" and neutrinos is based on the fact that collisions between neutrinos and matter give rise to certain leptons and no others. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/PHYSICS/tags/96703169:	LBL Research Review, Vol. 16, No. 3, Fall/Winter 1991, p. 3 and cover | An image of a nuclear interaction, produced by an iron nucleus accelerated to nearly the speed of light at LBL's Bevalac.  At the Bevalac, researchers can simulate cosmic radiation and assess the risks, especially from heavy ions such as iron. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/RESEARCH-1991-PRESENT/PHYSICS/D-ZERO-CALORIMETER/tags/96803900:	. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/94A06230:	Seaborg Lecture - LBNL 65th Anniversary (8/26/96), slide HS360
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/94A06231:	Seaborg lecture, "My Service with Ten Presidents", slide HS361 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/94A06233:	Seaborg lecture, "My Service with Ten Presidents", slide HS363 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/94A06234:	Seaborg lecture, "My Service with Ten Presidents", slide HS364 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/94A06236:	Seaborg lecture, "My Service with Ten Presidents", slide HS366 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/94A06237:	Seaborg Lecture - LBNL 65th Anniversary (8/26/96), slide W71
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/94A06379:	Seaborg Lecture - LBNL 65th Anniversary (8/26/96), slide H0906 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/95200458:	Seaborg Lecture - LBNL 65th Anniversary (8/26/96), slide HS368b 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/96401788:	Seaborg Lecture - LBNL 65th Anniversary (8/26/96), slide E21g 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/96401789:	Seaborg Lecture - LBNL 65th Anniversary (8/26/96), slide E27g 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/96703051:	LBL NEWS Magazine, Vol. 6, No. 3, Fall 1981,  p. 100; Seaborg Lecture - LBNL 65th Anniversary (8/26/96), slide D20
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/96703289:	LBL Research Review, Vol. 18, No. 3, August 1994, p. 8; Seaborg Lecture - Modern Alchemy, slide HS349; Seaborg Lecture - LBNL 65th Anniversary (8/26/96), slide HS349 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/96803596:	An American Genius, The Life of Ernest Orlando Lawrence, by Herbert Childs, Published by E.P. Dutton & Co., Inc., New York 1968; LBNL 65th Anniversary talk, August 26, 1996, Seaborg Slide HS415 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/96803597:	An American Genius, The Life of Ernest Orlando Lawrence, by Herbert Childs, Published by E.P. Dutton & Co., Inc., New York 1968; LBNL 65th Anniversary talk, August 26, 1996, Seaborg Slide HS416 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/96803598:	An American Genius, The Life of Ernest Orlando Lawrence, by Herbert Childs, Published by E.P. Dutton & Co., Inc., New York 1968; LBNL 65th Anniversary talk, August 26, 1996, Seaborg Slide HS417 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/96803674:	Journal of Glenn Seaborg, 1946-1958, May 19, 1946 - December 31, 1947, PUB-676, Vol. 1, July 1990, Page 1; Seaborg Lecture - LBNL 65th Anniversary (8/26/96), slide HS419 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/96803675:	Journal of Glenn Seaborg, 1946-1958, January 1, 1948 -December 31, 1948, PUB-676, Vol. 2, July 1990, Page 198; Seaborg Lecture - LBNL 65th Anniversary (8/26/96), slide HS418 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/96904306:	German chemists Otto Hahn and Fritz Strassman discovered nuclear fission in uranium in 1938. German physicist Lise Meitner worked with Hahn and Strassmann on research that lead to the discovery until she fled Nazi Germany to settle in Sweden in the summer of 1938.  She and her nephew Otto Frisch coined the term fission to describe the process in 1939. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/96904307:	Seaborg Lecture on Modern Alchemy, slide H503 ||Seaborg Lecture - LBNL 65th Anniversary (8/26/96), slide H0503 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/96904308:	Seaborg Lecture on Modern Alchemy, slide H0522 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/96904309:	Seaborg Lecture on Modern Alchemy, slide F1 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/96904310:	The first element to be synthesized and discovered ane atom at a time, mendelevium belongs to the actinide series in group IIIb of the periodic table.  Mendelevium-256, which does not occur in nature, was discovered by Albert Ghiorso, Bernard G. Harvey, Gregory R. Chopin, Stanley G. Thompson, and Glenn T. Seaborg in 1955 at the University of California, Berkeley, as a product of the helium-ion bombardment of a minute quantity (1,000,000,000 atoms) of Einsteinium-253. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/96904311:	Seaborg Lecture on Modern Alchemy, slide G25 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/96904312:	Seaborg Lecture on Modern Alchemy 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/96904313:	Seaborg Lecture on Modern Alchemy 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/96904314:	Seaborg Lecture on Modern Alchemy 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/96904315:	Seaborg Lecture on Modern Alchemy, slide G434 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/96904316:	Seaborg Lecture on Modern Alchemy, slide G360a 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/96904317:	Seaborg Lecture on Modern Alchemy, slide HS203 || Seaborg Lecture - LBNL 65th Anniversary (8/26/96), slide HS203
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/96A04841:	Seaborg Lecture on Modern Alchemy 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/96B05375:	Seaborg Lecture - My Service with Ten Presidents, slide HS355
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/96B05376:	Seaborg Lecture - My Service with Ten Presidents, slide HS287. Seaborg Lecture - Modern Alchemy, slide HS287. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/96B05377:	Seaborg Lecture - My Service with Ten Presidents, slide HS283 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/96B05378:	Seaborg Lecture - My Service with Ten Presidents, slide HS295. Seaborg Lecture - Modern Alchemy, slide HS295. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/96B05379:	Seaborg Lecture - My Service with Ten Presidents, slide HS285 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/96B05380:	Seaborg Lecture - My Service with Ten Presidents, slide HS288 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/96B05381:	Seaborg Lecture - My Service with Ten Presidents, slide HS296 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/96B05382:	Seaborg Lecture - My Service with Ten Presidents, slide HS286. Seaborg Lecture - Modern Alchemy, slide HS286. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/96B05383:	Seaborg Lecture - My Service with Ten Presidents, slide HS 291 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/96B05384:	Seaborg Lecture - My Service with Ten Presidents, slide H0972. Seaborg Lecture - Modern Alchemy, slide H0972. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/96B05385:	Seaborg Lecture - My Service with Ten Presidents, slide R001 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/96B05386:	Seaborg Lecture - My Service with Ten Presidents, slide R002a. Seaborg Lecture - Modern Alchemy, slide R002a. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/96B05387:	Seaborg Lecture - My Service with Ten Presidents, slide R003 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/96B05392:	Seaborg Lecture - My Service with Ten Presidents, slide H0722  || Seaborg Lecture - LBNL 65th Anniversary (8/26/96), slide R043 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/96B05393:	Seaborg Lecture - My Service with Ten Presidents, slide H0524 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/96B05394:	Seaborg Lecture - My Service with Ten Presidents, slide HS297 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/96B05395:	Seaborg Lecture - My Service with Ten Presidents, slide R008 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/96B05397:	Seaborg Lecture - My Service with Ten Presidents, slide H0769 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/96B05398:	Seaborg Lecture - My Service with Ten Presidents, slide HS108 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/96B05399:	Seaborg Lecture - My Service with Ten Presidents, slide R049 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/96B05401:	Seaborg Lecture - My Service with Ten Presidents, slide R073. Seaborg Lecture - Modern Alchemy, slide R073. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/96B05402:	Seaborg Lecture - My Service with Ten Presidents, slide R227 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/96B05403:	Seaborg Lecture - My Service with Ten Presidents, slide R223 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/96B05404:	Seaborg Lecture - My Service with Ten Presidents, slide R226 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/96B05405:	Seaborg Lecture - My Service with Ten Presidents, slide R225 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/96B05406:	Seaborg Lecture - My Service with Ten Presidents, slide R224 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/96B05407:	Seaborg Lecture - My Service with Ten Presidents, slide R228 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/96B05409:	Seaborg Lecture - My Service with Ten Presidents, slide HS289 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/96B05410:	Seaborg Lecture - My Service with Ten Presidents, slide R100 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/96B05411:	Seaborg Lecture - My Service with Ten Presidents, slide HS274 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/96B05412:	Seaborg Lecture - My Service with Ten Presidents, slide HS142 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/96B05413:	Seaborg Lecture - My Service with Ten Presidents, slide HS008 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/96B05414:	Seaborg Lecture - My Service with Ten Presidents, slide R102. Seaborg Lecture - Modern Alchemy, slide R102. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/96B05419:	Seaborg Lecture - My Service with Ten Presidents, slide H0929. Seaborg Lecture - Modern Alchemy, slide H0929. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/96B05420:	Seaborg Lecture - My Service with Ten Presidents, slide HS298 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/96B05421:	Seaborg Lecture - My Service with Ten Presidents, slide H0520.  Seaborg Lecture - Modern Alchemy, slide H0520. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/96B05423:	Seaborg Lecture - My Service with Ten Presidents, slide HS290 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/96B05427:	Seaborg Lecture - My Service with Ten Presidents, slide R236 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/96B05428:	Seaborg Lecture - My Service with Ten Presidents, slide HS276 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/96B05429:	Seaborg Lecture - My Service with Ten Presidents, slide HS277 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/96B05431:	Seaborg Lecture - My Service with Ten Presidents, slide HS301 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/96B05432:	Seaborg Lecture - My Service with Ten Presidents, slide H0994. Seaborg Lecture - Modern Alchemy, slide H0994. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/96B05435:	Seaborg Lecture - My Service with Ten Presidents, slide HS221 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/96B05437:	Seaborg Lecture - My Service with Ten Presidents, slide HS324. Seaborg Lecture - Modern Alchemy, slide HS324. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/96B05438:	Seaborg Lecture - My Service with Ten Presidents, slide HS324a. Seaborg Lecture - Modern Alchemy, slide HS324a. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/96B05440:	Seaborg Lecture - My Service with Ten Presidents, slide HS257 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/96B05441:	Seaborg Lecture - My Service with Ten Presidents, slide HS107 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/96B05442:	Seaborg Lecture - My Service with Ten Presidents, slide H0812 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/96B05443:	Seaborg Lecture - My Service with Ten Presidents, slide HS358 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/96B05444:	Seaborg Lecture - My Service with Ten Presidents, slide HS357 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/96B05445:	Seaborg Lecture - My Service with Ten Presidents, slide HS272 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/96B05446:	Seaborg Lecture - My Service with Ten Presidents, slide HS270 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/96B05447:	Seaborg Lecture - My Service with Ten Presidents, slide HS271 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/96B05580:	Seaborg Lecture - My Service with Ten Presidents, slide HS104 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/96B05581:	Seaborg Lecture - My Service with Ten Presidents, slide HS320. Seaborg Lecture - Modern Alchemy, slide HS320. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/96B05582:	Seaborg Lecture - Modern Alchemy. Slide F135 || Seaborg Lecture - LBNL 65th Anniversary (8/26/96), slide F135 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/96B05583:	Seaborg Lecture - Modern Alchemy, slide HS367A. The Plutonium Story: The Journals of Professor Glen T Seaborg, 1939-1946 || Seaborg Lecture - LBNL 65th Anniversary (8/26/96), slide HS367A 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/96B05584:	Seaborg Lecture - Modern Alchemy, slide H0051. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/96B05585:	Seaborg Lecture - Modern Alchemy, slide HS213 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/96B05586:	Seaborg Lecture - Modern Alchemy, slide HS213 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/96B05587:	Seaborg Lecture - Modern Alchemy, slide HS136 ||Seaborg Lecture - LBNL 65th Anniversary (8/26/96), slide HS136 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/96B05589:	Seaborg Lecture - Modern Alchemy, slide R150 | Seaborg Lecture - LBNL 65th Anniversary (8/26/96), slide R150 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/96B05590:	Seaborg Lecture - Modern Alchemy, slide HS100 || Seaborg Lecture - LBNL 65th Anniversary (8/26/96), slide HS100 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/96B05591:	Seaborg Lecture - Modern Alchemy slide HS204 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/96B05592:	Seaborg Lecture - Modern Alchemy, slide HS205 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/96B05593:	Seaborg Lecture - Modern Alchemy, slide HS150 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/96B05594:	Seaborg Lecture - Modern Alchemy, slide H0004 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/96B05595:	Seaborg Lecture - Modern Alchemy, slide H0005 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/96B05596:	Seaborg Lecture - Modern Alchemy, slide H0003 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/96B05597:	Seaborg Lecture - Modern Alchemy, slide H0177 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/96B05598:	Seaborg Lecture - Modern Alchemy, slide H0169 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/96B05599:	Seaborg Lecture - Modern Alchemy, slide H164A 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/96B05600:	Seaborg Lecture - Modern Alchemy, slide H0061 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/96B05602:	Seaborg Lecture - Modern Alchemy. Slide HS202. || Seaborg Lecture - LBNL 65th Anniversary (8/26/96), slide HS202 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/96B05647:	Seaborg Lecture - Modern Alchemy, slide R237 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/96B05648:	Seaborg Lecture - Modern Alchemy, slide F272 || Seaborg Lecture - LBNL 65th Anniversary (8/26/96), slide F272 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/96B05649:	Seaborg Lecture - Modern Alchemy, slide HS90 || Seaborg Lecture - LBNL 65th Anniversary (8/26/96), slide HS090 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/96B05650:	Seaborg Lecture - Modern Alchemy, slide F1110. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/96B05651:	Seaborg Lecture - Modern Alchemy, slide F111A 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/96B05652:	Seaborg Lecture - Modern Alchemy , slide F111 || Seaborg Lecture - LBNL 65th Anniversary (8/26/96), slide F111 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/96B05653:	Seaborg Lecture - Modern Alchemy, slide E28 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/96B05654:	Seaborg Lecture - Modern Alchemy, slide E03 || Seaborg Lecture - LBNL 65th Anniversary (8/26/96), slide E03 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/96B05655:	Seaborg Lecture - Modern Alchemy, slide G108 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/96B05656:	Seaborg Lecture - Modern Alchemy, slide G350A 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/96B05657:	Seaborg Lecture - Modern Alchemy, slide HS103 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/96B05658:	Seaborg Lecture - Modern Alchemy, slide G008 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/96B05659:	Seaborg Lecture - Modern Alchemy, slide G359A 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/96B05660:	Seaborg Lecture - Modern Alchemy. Slide F274 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/96B05691:	Seaborg Lecture - Modern Alchemy. Slide  H0578 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/96B05692:	Seaborg Lecture - Modern Alchemy, Seaborg slide H44 || Seaborg Lecture - LBNL 65th Anniversary (8/26/96), slide H0044 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/96B05693:	Seaborg Lecture - Modern Alchemy, slide HS218 || Chemical and Engineering News, November 19, 1990 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/96B05694:	Seaborg Lecture - Modern Alchemy. Seaborg slide E01x || Seaborg Lecture - LBNL 65th Anniversary (8/26/96), slide E01x 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/96B05695:	Seaborg Lecture - Modern Alchemy, slide H0034 || Seaborg Lecture - LBNL 65th Anniversary (8/26/96), slide H0034 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/96B05696:	Seaborg Lecture - Modern Alchemy. Seaborg slide H0036 || Seaborg Lecture - LBNL 65th Anniversary (8/26/96), slide H0036 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/96B05697:	Element 93 (Neptunium) is a radioactive chemical element of the actinide series in group IIIb of the periodic table and the first transuranium element to be artificially produced.  Edwin M. McMillan and Phillip Adelson first found neptunium in 1940 after uranium had been bombarded by neutrons from the cyclotron at Berkeley, California.
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/96B05698:	Seaborg Lecture - Modern Alchemy, slides F109A and HS256 || Seaborg Lecture - LBNL 65th Anniversary (8/26/96), slide F109A and HS256 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/97200626:	Seaborg slide (F28x?) 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/97200627:	Seaborg slide (HS 160?) 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/97300783:	Magnet, Vol. 5, No. 4, April, 1961, p. 2 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/97301111:	Glenn Seaborg's LBNL 65th Anniversary talk, Seaborg Slide H0201 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/97301112:	Glenn Seaborg's LBNL 65th Anniversary talk, Seaborg Slide H0238 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/97301113:	Glenn Seaborg's LBNL 65th Anniversary talk, Seaborg Slide H0265 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/97301114:	Glenn Seaborg's LBNL 65th Anniversary talk, Seaborg Slide H0385 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/97301115:	Glenn Seaborg's LBNL 65th Anniversary talk, Seaborg Slide H0423 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/97301116:	Glenn Seaborg's LBNL 65th Anniversary talk, Seaborg Slide H0662 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/97301117:	Glenn Seaborg's LBNL 65th Anniversary talk, Seaborg Slide H0837 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/97301118:	Glenn Seaborg's LBNL 65th Anniversary talk, Seaborg Slide H0839 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/97301119:	Glenn Seaborg's LBNL 65th Anniversary talk, Seaborg Slide H0905 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/97301120:	Glenn Seaborg's LBNL 65th Anniversary talk, Seaborg Slide D28 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/97301121:	Glenn Seaborg's LBNL 65th Anniversary talk, Seaborg Slide HS222 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/97301122:	Glenn Seaborg's LBNL 65th Anniversary talk, Seaborg Slide HS400 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/97301123:	Glenn Seaborg's LBNL 65th Anniversary talk, Seaborg Slide HS401 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/97301124:	Glenn Seaborg's LBNL 65th Anniversary talk, Seaborg Slide HS403 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/97301125:	Glenn Seaborg's LBNL 65th Anniversary talk, Seaborg Slide HS407 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/97301126:	Glenn Seaborg's LBNL 65th Anniversary talk, Seaborg Slide HS408 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/97301127:	Glenn Seaborg's LBNL 65th Anniversary talk, Seaborg Slide HS410 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/97301129:	Glenn Seaborg's LBNL 65th Anniversary talk, Seaborg Slide H0694 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/97301130:	Glenn Seaborg's LBNL 65th Anniversary talk, Seaborg Slide H0697 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/97301131:	Glenn Seaborg's LBNL 65th Anniversary talk, Seaborg Slide H0465 or H0969 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/97301132:	Glenn Seaborg's LBNL 65th Anniversary talk, Seaborg Slide H0369 or F133 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/97301192:	Seaborg Lecture - LBNL 65th Anniversary (8/26/96), slide H0026 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/97301193:	Seaborg Lecture - LBNL 65th Anniversary (8/26/96), slide HS115 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/97301194:	Seaborg Lecture - LBNL 65th Anniversary (8/26/96), slide HS116 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/97301195:	Seaborg Lecture - LBNL 65th Anniversary (8/26/96), slide HS025 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/97301196:	Seaborg Lecture - LBNL 65th Anniversary (8/26/96), slide H0540 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/97301197:	Seaborg Lecture - LBNL 65th Anniversary (8/26/96), slide H0539 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/97301198:	Seaborg Lecture - LBNL 65th Anniversary (8/26/96), slide H0358 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/97301199:	Seaborg Lecture - LBNL 65th Anniversary (8/26/96), slide H0357 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/97301200:	Seaborg Lecture - LBNL 65th Anniversary (8/26/96), slide H0359 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/97301201:	Seaborg Lecture - LBNL 65th Anniversary (8/26/96), slide H0502 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/97301202:	Seaborg Lecture - LBNL 65th Anniversary (8/26/96), slide H0550 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/97301203:	Seaborg Lecture - LBNL 65th Anniversary (8/26/96), slide H0674 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/97301204:	Seaborg Lecture - LBNL 65th Anniversary (8/26/96), slide H0339 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/97301205:	Seaborg Lecture - LBNL 65th Anniversary (8/26/96), slide H0153 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/97301206:	Seaborg Lecture - LBNL 65th Anniversary (8/26/96), slide HO426 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/97301207:	Seaborg Lecture - LBNL 65th Anniversary (8/26/96), slide H0543 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/97301208:	Seaborg Lecture - LBNL 65th Anniversary (8/26/96), slide H0347 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/97301209:	Seaborg Lecture - LBNL 65th Anniversary (8/26/96), slide H340; Seaborg Lectuure - The Nation at Risk Report; Seaborg Lecture - 1989 Math/Science Education Conference Revisited 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/97301210:	Seaborg Lecture - LBNL 65th Anniversary (8/26/96), slide HS353 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/97301211:	Seaborg Lecture - LBNL 65th Anniversary (8/26/96), slide HS189 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/97301212:	Seaborg Lecture - LBNL 65th Anniversary (8/26/96), slide R151 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/97301213:	Seaborg Lecture - LBNL 65th Anniversary (8/26/96), slide F149 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/97301214:	Seaborg Lecture - LBNL 65th Anniversary (8/26/96), slide F143 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/97301215:	Seaborg Lecture - LBNL 65th Anniversary (8/26/96), slide D06 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/97301216:	Seaborg Lecture - LBNL 65th Anniversary (8/26/96), slide D23 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/97301217:	Seaborg Lecture - LBNL 65th Anniversary (8/26/96), slide D26 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/97301218:	Seaborg Lecture - LBNL 65th Anniversary (8/26/96), slide G050 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/97401411:	Seaborg Lecture - LBNL 65th Anniversary (8/26/96), slide H0343 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/97401412:	Seaborg Lecture - LBNL 65th Anniversary (8/26/96), slide H0754 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/97401413:	Seaborg Lecture - LBNL 65th Anniversary (8/26/96), slide H0538 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/97401414:	Seaborg Lecture - LBNL 65th Anniversary (8/26/96), slide H0152 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/97401415:	Seaborg Lecture - LBNL 65th Anniversary (8/26/96), slide H0955 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/97401416:	Seaborg Lecture - LBNL 65th Anniversary (8/26/96), slide HS101 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/97401417:	Seaborg Lecture - LBNL 65th Anniversary (8/26/96), slide H0636 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/97401418:	Seaborg Lecture - LBNL 65th Anniversary (8/26/96), slide HS003 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/97401419:	Seaborg Lecture - LBNL 65th Anniversary (8/26/96), slide G164x 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/97401420:	Seaborg Lecture - LBNL 65th Anniversary (8/26/96), slide H0315 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/97401421:	Seaborg Lecture - LBNL 65th Anniversary (8/26/96), slide H0930 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/97401422:	Seaborg Lecture - LBNL 65th Anniversary (8/26/96), slide H0928 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/97401423:	Seaborg Lecture - LBNL 65th Anniversary (8/26/96), slide H0546 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/97401424:	Seaborg Lecture - LBNL 65th Anniversary (8/26/96), slide HS002 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/97401425:	Seaborg Lecture - LBNL 65th Anniversary (8/26/96), slide H0600 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/97401426:	Seaborg Lecture - LBNL 65th Anniversary (8/26/96), slide H0515 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/97401667:	Seaborg Lecture - LBNL 65th Anniversary (8/26/96), slide D04 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/97401668:	Seaborg Lecture - LBNL 65th Anniversary (8/26/96), slide D01 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/97401669:	Seaborg Lecture - LBNL 65th Anniversary (8/26/96), slide H0942 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/97401670:	Seaborg Lecture - LBNL 65th Anniversary (8/26/96), slide H0343 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/97401671:	Seaborg Lecture - LBNL 65th Anniversary (8/26/96), slide H0137 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/97401672:	Using the formula discovered by Kamen and Ruben in 1940, William F. Libby and J. Arnold devised a technique to date organic materials accurately, +/- 40 years, by measuring the amount of the specimen's residual radiocarbon.  This method has been used effectively to determine the age of fossils and archaeological specimens from 500 to 50,000 years old. 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/97401673:	Seaborg Lecture - LBNL 65th Anniversary (8/26/96), slide H0141 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/97401674:	Seaborg Lecture - LBNL 65th Anniversary (8/26/96), slide H0142 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/97401675:	Seaborg Lecture - LBNL 65th Anniversary (8/26/96), slide R042 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/97401676:	Seaborg Lecture - LBNL 65th Anniversary (8/26/96), slide H0328 
/home/www/imglib/http/htdocs/ImgLib/COLLECTIONS/BERKELEY-LAB/SEABORG-ARCHIVE/tags/97702816:	Seaborg Slide HS282