Bibliographic Citation
| Document | For copies of Journal Articles, please contact the Publisher or your local public or university library and refer to the information in the Resource Relation field. For copies of other documents, please see the Availability, Publisher, Research Organization, Resource Relation and/or Author (affiliation information) fields and/or Document Availability. |
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| DOI | http://dx.doi.org/10.1063/1.365150 |
| Title | Circular free-electron laser structures (abstract) |
| Creator/Author | Leupold, H.A. ; Potenziani, E. , II, and ; Tilak, A. [U.S. Army Research Laboratory, Fort Monmouth, New Jersey 07703 (United States)] |
| Publication Date | 1997 Apr 01 |
| OSTI Identifier | OSTI ID: 496565 |
| Report Number(s) | CONF-961141-- |
| Other Number(s) | JAPIAU; ISSN 0021-8979 |
| Resource Type | Journal Article |
| Resource Relation | Journal of Applied Physics ; VOL. 81 ; ISSUE: 8 ; 41. annual conference on magnetism and magnetic materials, Atlanta, GA (United States), 12-15 Nov 1996 ; PBD: Apr 1997 |
| Subject | 42 ENGINEERING NOT INCLUDED IN OTHER CATEGORIES ; FREE ELECTRON LASERS; PERMANENT MAGNETS; ELECTRON BEAMS; MAGNETIC FIELDS; WIGGLER MAGNETS |
| Description/Abstract | Typically free-electron lasers (FELs) have employed electromagnets arranged in linearly periodic arrays to provide the magnetic field necessary to impart a transverse oscillatory acceleration to an electron beam thus causing it to radiate. With the advent of the high energy product permanent magnet materials, it has become practical in some cases to replace electromagnets with permanent magnet arrays. Difficulties with both procedures were obtaining desired magnetic field strengths at short wave lengths, utilization of only a small part of the beam energy, and impracticability of obtaining the desired bore cross sections at high field strengths and short periods. These problems can be ameliorated by permanent magnet arrays that offer unusually high fields and modest structural masses. In such structures, the electron beams follow circular rather than linear paths, the magnetic periodicity is azimuthal, the fields are axial and unidirectional, and the{open_quotes}wiggle{close_quotes} is in the radial direction. Because of its circular path, the{ital e}-beam traverses the array many times so that a much larger portion of the electron kinetic energy can be converted to radiation than in the usual linear arrays which the electron beam traverses only once. The circular beam arrays are based on both magic spheres and magic toroid structures in which the same field produces the wiggle and maintains the circular path. An example of the calculated results is that of a sphere in which the ratio of the outer to inner diameters is 3, and the extremes of the periodic field values are 3.4 and 3.7 T causing synchrotron radiation of 2.5{times}10{sup 13} Hz and wiggler radiation of 2.0{times}10{sup 14} Hz. |
| Country of Publication | United States |
| Language | English |
| Format | pp. 5144 ; PL: |
| System Entry Date | 2001 May 05 |
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