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Laser Spectroscopy & Applied Materials Group

Laser Spectroscopy & Applied Materials Group

References

References

2008

  • Gonzalez, J., A. Fernandez, D. Oropeza, X. Mao, and R.E. Russo. Femtosecond laser ablation: Experimental study of the repetition rate influence on qualitative and quantitative ICP-MS performance. Spectrochimica Acta Part B-Atomic Spectroscopy 63[2] (2008). 277-286.
  • Gonzalez, J., D. Oropeza, X.L Mao, and R.E. Russo. Assessment of the precision and accuracy of thorium (232Th) and uranium (238U) measured by quadrupole based-inductively coupled plasma-mass spectrometry: comparison of liquid nebulization, nanosecond and femtosecond laser ablation. Journal of Analytical Atomic Spectrometry 23(2008). 229-234.

2007

  • Baudelet, M., M. Boueri, J. Yu, S. Mao, V. Piscitelli, X. Mao, and R.E. Russo. Time-resolved ultraviolet laser-induced breakdown spectroscopy for organic material analysis. Spectrochimica Acta Part B: Atomic Spectroscopy 20[1] (2007). 1329-1334.
  • Gonzalez, J., C. Liu, S. Wen, X. Mao, and R.E. Russo. Glass particles produced by laser ablation for ICP-MS measurements. Talanta 73[3] (2007). 577-582.
  • Gonzalez, J., C. Liu, S. Wen, X. Mao, and R.E. Russo. Metal particles produced by laser ablation for ICP-MS measurements. Talanta 73[3] (2007). 567-576.
  • Liu, C., X.L. Mao, R. Greif, and R.E. Russo. Time resolved shadowgraph images of silicon during laser ablation: Shockwaves and particle generation. Journal of Physics: Conference Series 59(2007). 338-342.
  • Mao, X.L., S. Wen, and R.E. Russo. Time resolved laser-induced plasma dynamics. Applied Surface Science 253[15] (2007). -6316.
  • Wen, S.B., X.L. Mao, R. Greif, and R.E. Russo. Experimental and theoretical studies of particle generation after laser ablation of copper with a background gas at atmospheric pressure. Journal of Applied Physics 101[123105] (2007). 123105-1-123105-15.
  • Wen S.B., X.L. Mao, C. Liu, and R.E. Russo. Expansion and radiative cooling of the laser induced plasma. Journal of Physics: Conference Series 59(2007). 343-347.
  • Wen, S.B., X.L. Mao, R. Greif, and R.E. Russo. Expansion of the laser ablation vapor plume in to a background gas: Part I: Analysis. Journal of Applied Physics 101[023114] (2007).
  • Wen, S.B., X.L. Mao, R. Greif, and R.E. Russo. Laser ablation induced vapor plume expansion into a background gas. II. Experimental analysis. Journal of Applied Physics 101[023115] (2007).
  • Wen, S.B., R. Greif, and R.E. Russo. Background gas effect on the generation of nanopatterns on a pure silicon wafer with multiple femtosecond near field laser ablation. Applied Physics Letters [91251113] (2007).

2006

  • Gonzalez, J., S.H. Dundas, C. Liu, X.L. Mao, and R.E. Russo. UV-femtosecond and nanosecond laser ablation-ICP-MS: internal and external reproducibility. Journal of Analytical Atomic Spectrometry 21(2006). 778-784.
  • Wen, S.B. Experimental and theoretical study of laser ablation processes including vapor plume expansion, cooling, and condensation with an ambient gas. (2006).
  • Wen, S.B., X.L. Mao, R. Greif, and R.E. Russo. Theoretical analysis for LIBS optimization. Spectrochimica Acta Part B: Atomic Spectroscopy (2006).
  • Wen, S.B., X.L. Mao, R. Greif, and R.E. Russo. Radiative cooling of laser ablated vapor plumes: experimental and theoretical analyses. Journal of Applied Physics 100[053104] (2006).
  • Wen, S.B., X.L. Mao, R. Greif, and R.E. Russo. Analysis of laser ablation: contribution of ionization energy to the plasma and shockwave properties. Journal of Applied Physics (2006).

2005

  • Berdahl, P., R.P. Reade, and R.E. Russo. Rapid ion beam induced Ostwald ripening in two dimensions. J.Appl.Phys. June(2005).
  • Gonzalez, J., C.Y. Liu, J.H. Yoo, X.L. Mao, and R.E. Russo. Double-pulse laser ablation inductively coupled plasma mass spectrometry. Spectrochimica Acta Part B: Atomic Spectroscopy 60(2005). 27-31.
  • Liu C. A study of particle generation during laser ablation with applications. (2005).
  • Liu, C., X.L. Mao, J. Gonzalez, and R.E. Russo. Study of particle size influence on laser ablation inductively coupled plasma mass spectrometry using an in-line cascade impactor. J.Anal.Atom.Spectrom. 20[3] (2005). 200-203.
  • Liu, C., X.L. Mao, R. Greif, and R.E. Russo. Particle-size dependent chemistry from laser ablation of brass. Analytical Chemistry 77(2005). 6687-6691.
  • Mao, X.L., X. Zeng, S. Wen, and R.E. Russo. Time-resolved plasma properties for double pulsed LIBS of silicon. Spectrochimica Acta Part B: Atomic Spectroscopy (2005).
  • Russo, R.E., J. Gonzalez, and C.Y. Liu. Laser ablation: LIBS and ICP-MS. LabPlus International September (2005).
  • Wen, S.B., X.L. Mao, and R.E. Russo. Comment on "Three-dimensional analysis of laser induced plasmas in single and double pulse configuration". Spectrochimica Acta Part B: Atomic Spectroscopy 60(2005). 870-875.
  • Zeng, X., X. Mao, S. Mao, S. Wen, R. Greif, and R.E. Russo. Laser-induced shockwave propagation from ablation in a cavity. Applied Physics Letters (2005).

2004

  • Gonzalez, J., A. Fernandez, X.L. Mao, and R.E. Russo. Scanning vs. single spot laser ablation (213 nm) inductively coupled plasma mass spectrometry. Spectrochim.Acta Pt.B-At.Spec. 59(2004). 369-374.
  • Gonzalez, J., C.Y. Liu, X.L. Mao, and R.E. Russo. UV-femtosecond laser ablation-ICP-MS for analysis of alloys samples. Journal of Analytical Atomic Spectrometry 19(2004). 1165-1168.
  • Klunder, G.L., P. Grant, B.D. Andresen, and R.E. Russo. Direct chemical analysis of solids by laser ablation in an Ion storage time-of-flight mass spectrometer. Analytical Chemistry 76[5] (2004). 1249-1256.
  • Liu, C., X.L. Mao, S.S. Mao, X. Zeng, R. Greif, and R.E. Russo. Nanosecond and femtosecond laser ablation of brass: Particulate and ICPMS measurements. Analytical Chemistry 76[2] (1-15-2004). 379-383.
  • Mao, S., X. Zeng, X.L. Mao, and R.E. Russo. Laser-induced breakdown spectroscopy: flat surface vs. cavity structures. J.Anal.Atom.Spectrom. 19(2004). 495-498.
  • Mao, S., G. Quere, S. Guizard, X.L. Mao, and R.E. Russo. Dynamics of femtosecond laser interactions with dielectrics. Applied Physics A: Materials Science and Processing 79(2004). 1695-1709.
  • Russo, R.E., X.L. Mao, C.Y. Liu, and J. Gonzalez. Laser assisted plasma spectrometry: Laser Ablation. J.Anal.Atom.Spectrom. 19(2004). 1084-1089.
  • Zeng, X., X.L. Mao, R. Greif, and R.E. Russo. Experimental investigation of ablation efficiency and laser-induced plasma expansion during femtosecond and nanosecond laser ablation of silicon. Applied Physics A: Materials Science and Processing 80[2] (2004). 237-241.
  • Zeng, X., X.L. Mao, S. Wen, R. Greif, and R.E. Russo. Energy deposition and shock wave propagation during pulsed laser ablation in fused silica cavities. Journal of Physics D: Applied Physics 37(2004). 1132-1136.
  • Zeng, X., X.L. Mao, S. Mao, J.H. Yoo, R. Greif, and R.E. Russo. Laser-plasma interactions in fused silica cavities. Journal of Applied Physics 95[3] (2-1-2004). 816-822.

2003

  • Berdahl, P., R.P. Reade, J.P. Liu, R.E. Russo, L. Fritzemeier, D. Buczek, and U. Schoop. Oblique ion texturing of yttria-stabilized zirconia: the {211}<111> structure. Applied Physics Letters 82(2003). 343-345.
  • Mao, X.L., S.S. Mao, and R.E. Russo. Imaging femtosecond laser-induced electronic excitation in glass. Applied Physics Letters 82[5] (2-3-2003). 697-699.
  • Poitrasson, F., X.L. Mao, S.S. Mao, R. Freydier, and R.E. Russo. Comparison of ultraviolet femtosecond and nanosecond laser ablation inductively coupled plasma mass spectrometry analysis in glass, monazite, and zircon. Analytical Chemistry 75[22] (11-15-2003). 6184-6190.
  • Ridgway, P.L., R.E. Russo, E. Lafond, T. Jackson, and C. Habeger. A laser ultrasonic system for on-line measurenment of elastic properties of paper. Journal of Pulp and Paper Science 29[9] (2003). 289-293.
  • Satta, M., X. Zeng, X. Mao, S.S. Mao, R.E. Russo, A. Giardini, and A. Mele. Laser plasma spectroscopy of Al-Cu-Fe quasicrystal and alloy. Applied Spectroscopy 57[7] (2003). 737-743.
  • Zeng, X., S. Mao, C. Liu, X.L. Mao, R. Greif, and R.E. Russo. Plasma diagnostics during laser ablation in a cavity. Spectrochim.Acta Pt.B-At.Spec. 58(2003). 867-877.
  • Zeng, X., S. Mao, C. Liu, X.L. Mao, R. Greif, and R.E. Russo. Laser-induced plasmas in micromachined fused silica cavities. Appl.Phys.Lett. 83[2] (2003). 240-242.

2002

  • Gonzalez, J., X.L. Mao, S. Mao, and R.E. Russo. Femtosecond laser ablation-ICP-MS. Journal of Analytical Atomic Spectrometry 17[9] (2002). 1072-1075.
  • Gonzalez, J., X.L. Mao, J. Roy, S.S. Mao, and R.E. Russo. Comparison of 193, 213 and 266 nm laser ablation ICP-MS. Journal of Analytical Atomic Spectrometry 17[9] (2002). 1108-1113.
  • Lu, Q.M., S.S. Mao, X.L. Mao, and R.E. Russo. Delayed phase explosion during high-power nanosecond laser ablation of silicon. Applied Physics Letters 80[17] (4-29-2002). 3072-3074.
  • Mele, A., H.C. Liu, R.E. Russo, X.L. Mao, A. Giardini, and M. Satta. Inductively coupled plasma mass spectrometric study of laser sputtering from the surface of an Al-Cu-Fe alloy and quasicrystal. Applied Surface Science 186[1-4] (1-28-2002). 322-328.
  • Reade, R.P., P. Berdahl, and R.E. Russo. Ion beam nanotexturing of buffer layers for near single crystal thin film deposition: Application to YBCO superconducting films. Applied Physics Letters 8[8] (2002). 1352-1354.
  • Russo, R.E., X.L. Mao, H.C. Liu, J. Gonzalez, and S.S. Mao. Laser ablation in Analytical Chemistry — a review. Talanta 57[3] (5-24-2002). 425-451.
  • Russo, R.E., X.L. Mao, and S.S. Mao. The physics of laser ablation in microchemical analysis. Analytical Chemistry 74[3] (2-1-2002). 70A-77A.
  • Yang, P.D., H.Q. Yan, S. Mao, R. Russo, J. Johnson, R. Saykally, N. Morris, J. Pham, R.R. He, and H.J. Choi. Controlled growth of ZnO nanowires and their optical properties. Advanced Functional Materials 12[5] (2002). 323-331.

2001

  • Borisov, O.V., C.J. Bannochie, and R.E. Russo. Laser ablation inductively coupled plasma mass spectrometry of pressed pellet surrogates for Pu materials disposition. Applied Spectroscopy 55[10] (2001). 1304-1311.
  • Chan, G.C.Y., W.T. Chan, X.L. Mao, and R.E. Russo. Comparison of matrix effects in inductively coupled plasma using laser ablation and solution nebulization for dry and wet plasma conditions. Spectrochimica Acta Part B: Atomic Spectroscopy 56[8] (8-31-2001). 1375-1386.
  • Chan, G.C.Y., W.T. Chan, X.L. Mao, and R.E. Russo. Investigation of matrix effects in inductively coupled plasma-atomic emission spectroscopy using laser ablation and solution nebulization — effect of second ionization potential. Spectrochimica Acta Part B: Atomic Spectroscopy 56[1] (1-15-2001). 77-92.
  • Huang, M.H., S. Mao, H. Feick, H.Q. Yan, Y.Y. Wu, H. Kind, E. Weber, R.E. Russo, and P.D. Yang. Room-temperature ultraviolet nanowire nanolasers. Science 292[5523] (6-8-2001). 1897-1899.
  • Liu, H.C., X.L. Mao, and R.E. Russo. Representative sampling using single-pulse laser ablation with inductively coupled plasma mass spectrometry. J.Anal.Atom.Spectrom. 16[10] (2001). 1115-1120.
  • Mao, S.S., X.L. Mao, R. Greif, and R.E. Russo. Influence of preformed shock wave on the development of picosecond laser ablation plasma. Journal of Applied Physics 89[7] (4-7-2001). 4096-4098.
  • Salleo, A., F.Y. Genin, M.D. Feit, A.M. Rubenchik, T. Sands, S.S. Mao, and R.E. Russo. Energy deposition at front and rear surfaces during picosecond laser interaction with fused silica. Applied Physics Letters 78[19] (5-7-2001). 2840-2842.
  • Yoo, J.H., S.H. Jeong, X.L. Mao, R. Greif, and R.E. Russo. Response to "Comment on 'Evidence for phase explosion and generation of large particles during high power nanosecond laser ablation of silicon'". Applied Physics Letters 79[3] (7-16-2001). 444-445.
  • Yoo, J.H., O.V. Borisov, X.L. Mao, and R.E. Russo. Existence of phase explosion during laser ablation and its effects on inductively coupled plasma-mass spectroscopy. Anal.Chem. V73(5-15-2001). 2288-2293.

2000

  • Borisov, O.V., X.L. Mao, and R.E. Russo. Effects of crater development on fractionation and signal intensity during laser ablation inductively coupled plasma mass spectrometry. Spectrochim.Acta Pt.B-At.Spec. 55[11] (2000). 1693-1704.
  • Chan, G.C.Y., W.T. Chan, X.L. Mao, and R.E. Russo. Investigation of matrix effect on dry inductively coupled plasma conditions using laser ablation sampling. Spectrochimica Acta Part B: Atomic Spectroscopy 55[3] (3-31-2000). 221-235.
  • Liu, H.C., O.V. Borisov, X.L. Mao, S. Shuttleworth, and R.E. Russo. Pb/U fractionation during Nd : YAG 213 nm and 266 nm laser ablation sampling with inductively coupled plasma mass spectrometry. Applied Spectroscopy 54[10] (2000). 1435-1442.
  • Mao, S., X.L. Mao, R. Greif, and R.E. Russo. Observation of plasma formation during picosecond laser ablation of metals. Proceedings of the SPIE 3935[113] (2000). 119.
  • Mao, S.S., R. Greif, X.L. Mao, and R.E. Russo. Plasma development during picosecond laser processing of electronic materials. Journal of Heat Transfer-Transactions of the Asme 122[3] (2000). 424.
  • Mao, S.S., X.L. Mao, R. Greif, and R.E. Russo. Simulation of a picosecond laser ablation plasma. Applied Physics Letters 76[23] (6-5-2000). 3370-3372.
  • Mao, S.S., X.L. Mao, R. Greif, and R.E. Russo. Dynamics of an air breakdown plasma on a solid surface during picosecond laser ablation. Applied Physics Letters 76[1] (1-3-2000). 31-33.
  • Mao, S.S., X. Mao, R. Greif, and R.E. Russo. Initiation of an early-stage plasma during picosecond laser ablation of solids. Applied Physics Letters 77[16] (10-16-2000). 2464-2466.
  • Russo, R.E., X.L. Mao, O.V. Borisov, and H.C. Liu. Influence of wavelength on fractionation in laser ablation ICP-MS. Journal of Analytical Atomic Spectrometry 15[9] (2000). 1115-1120.
  • Russo, R.E., X.L. Mao, O.V. Borisov, and H. Liu. Laser ablation in atomic spectroscopy. Encyclopedia of Analytical Chemistry:Instrumentation and Applications (2000).
  • Russo, R.E., G.L. Klunder, P. Grant, and B.D. Andresen. Laser ablation ion-storage time-of-flight mass spectrometry. Applied Physics A: Materials Science and Processing 69[895] (2000). 897.
  • Yoo, J.H., S.H. Jeong, R. Greif, and R.E. Russo. Explosive change in crater properties during high power nanosecond laser ablation of silicon. Journal of Applied Physics 88[3] (8-1-2000). 1638-1649.
  • Yoo, J.H., S.H. Jeong, X.L. Mao, R. Greif, and R.E. Russo. Evidence for phase-explosion and generation of large particles during high power nanosecond laser ablation of silicon. Applied Physics Letters 76[6] (2-7-2000). 783-785.

1999

  • Borisov, O.V., X.L. Mao, A. Fernandez, M. Caetano, and R.E. Russo. Inductively coupled plasma mass spectrometric study of non-linear calibration behavior during laser ablation of binary Cu-Zn alloys. Spectrochimica Acta Part B: Atomic Spectroscopy 54[9] (9-13-1999). 1351-1365.
  • Ciocan, A.C., X.L. Mao, O.V. Borisov, and R.E. Russo. Laser ablation inductively coupled plasma atomic emission spectroscopy. Fundamentals and analytical experiments. Romanian Journal of Physics 44[5,6] (1999). 561-567.
  • Jeong, S.H., O.V. Borisov, J.H. Yoo, X.L. Mao, and R.E. Russo. Effects of particle size distribution on inductively coupled plasma mass spectrometry signal intensity during laser ablation of glass samples. Anal.Chem. 71[22] (1999). 5123-5130.
  • Jeong, S.H., R. Greif, and R.E. Russo. Shock wave and material vapour plume propagation during excimer laser ablation of aluminium samples. Journal of Physics D: Applied Physics 32[19] (10-7-1999). 2578-2585.
  • Liu, H.C., X.L. Mao, J.H. Yoo, and R.E. Russo. Early phase laser induced plasma diagnostics and mass removal during single-pulse laser ablation of silicon. Spectrochimica Acta Part B: Atomic Spectroscopy 54[11] (11-8-1999). 1607-1624.
  • Liu, H.C., X.L. Mao, J.H. Yoo, and R.E. Russo. Nonlinear changes in plasma and crater properties during laser ablation of Si. Applied Physics Letters 75[9] (8-30-1999). 1216-1218.
  • Ridgway, P.L., A.J. Hunt, M. Quinby-Hunt, and R.E. Russo. Laser ultrasonics on moving paper. Ultrasonics 37[6] (1999). 395-403.
  • Russo, R.E., O.V. Borisov, and X.L. Mao. Improving direct characterization of solid-waste forms using laser ablation with inductively coupled plasma mass spectrometry. Abstracts of Papers of the American Chemical Society 218(8-22-1999). U1072.
  • Russo, R.E., X.L. Mao, H.C. Liu, J.H. Yoo, and S.S. Mao. Time-resolved plasma diagnostics and mass removal during single-pulse laser ablation. Applied Physics A: Materials Science and Processing 69(1999). S887-S894.

1998

  • Borisov, O.V., X.L. Mao, A.C. Ciocan, and R.E. Russo. Time-resolved parametric studies of laser ablation using inductively coupled plasma atomic emission spectroscopy. Applied Surface Science 129(1998). 315-320.
  • Chan, W.T., A.P.K. Leung, X.L. Mao, and R.E. Russo. Effects of gas environment on picosecond laser ablation. Appl.Surf.Sci. V129(1998). 269-273.
  • Church, M.N., J.D. Spear, R.E. Russo, G.L. Klunder, P. Grant, and B.D. Andresen. Transient Isotachophoretic — Electrophoretic separations of Lanthanides with indirect laser-induced fluorescence detection. Analytical Chemistry 70(1998). 2475-2480.
  • Ciocan, A.C., X.L. Mao, O.V. Borisov, and R.E. Russo. Optical emission spectroscopy studies of the influence of laser ablated mass on dry inductively coupled plasma conditions. Spectrochimica Acta Part B: Atomic Spectroscopy 53[3] (3-30-1998). 463-470.
  • Grant, P., K.L. Moody, I.D. Hutchinson, and R.E. Russo. Nuclear forensics in law enforcement. Journal of Radioanalytical and Nuclear Chemistry 235(1998). 129-132.
  • Grant, P., K.L. Moody, I.D. Hutchinson, D.L. Phinney, B.D. Andresen, and R.E. Russo. Forensic analyses of suspect illicit nuclear material. Journal of Forensics Science 43[3] (1998). 680-688.
  • Hipwell, M.C., C.L. Tien, X.L. Mao, and R.E. Russo. Picosecond differential transmission measurements on porous silicon. Microscale Thermophysical Engineering 2[2] (1998). 87-99.
  • Hipwell, M.C., C.L. Tien, X.L. Mao, and R.E. Russo. The dual beam picosecond continuum technique for measurement of short time-scale transmission spectra. Experimental Heat Transfer 11[4] (1998).
  • Jeong, S.H., R. Greif, and R.E. Russo. Propagation of the shock wave generated from excimer laser heating of aluminum target in comparisom with the idea blast wave theory. Applied Surface Science 129(1998). 1029-1034.
  • Jeong, S.H., R. Greif, and R.E. Russo. Laser heating of metals targets including the influence of the background pressure. Proceedings of the International Mechanical Engineering Congress and Exposition (1998).
  • Jeong, S.H., R. Greif, and R.E. Russo. Numerical modeling of pulsed laser evaporation of aluminum targets. Applied Surface Science 129(1998). 177-183.
  • Klunder, G.L., J.E. Andrews, P. Grant, B.D. Andresen, M.N. Church, J.D. Spear, and R.E. Russo. Nuclear fission product analysis using capillary electrophoresis. Journal of Radioanalytical and Nuclear Chemistry 236(1998). 149-153.
  • Leung, A.P.K., W.T. Chan, X.L. Mao, and R.E. Russo. Influence of gas environment on picosecond laser ablation sampling efficiency and ICP conditions. Analytical Chemistry 70[22] (11-15-1998). 4709-4716.
  • Mao, S.S., X.L. Mao, R. Greif, and R.E. Russo. Simulation of infrared picosecond laser-induced electron emission from semiconductors. Applied Surface Science 129(1998). 206-211.
  • Mao, S.S., X.L. Mao, J.H. Yoo, R. Greif, and R.E. Russo. Thermionic electron emission from narrow band-gap semiconductors under picosecond laser excitation. Journal of Applied Physics 83[8] (4-15-1998). 4462-4465.
  • Mao, X.L., O.V. Borisov, and R.E. Russo. Enhancements in laser ablation inductively coupled plasma-atomic emission spectrometry based on laser properties and ambient environment. Spectrochimica Acta Part B: Atomic Spectroscopy 53[5] (5-29-1998). 731-739.
  • Mao, X.L., A.C. Ciocan, O.V. Borisov, and R.E. Russo. Laser ablation processes investigated using inductively coupled plasma atomic emission spectroscopy (ICP-AES). Applied Surface Science 129(1998). 262-268.
  • Mao, X.L., A.C. Ciocan, and R.E. Russo. Preferential vaporization during laser ablation inductively coupled plasma atomic emission spectroscopy. Applied Spectroscopy 52[7] (1998). 913-918.
  • Mao, S.S., X.L. Mao, R. Greif, and R.E. Russo. Breakdown of equilibrium approximation for nanosecond laser-induced electron emission from silicon. Applied Physics Letters 73[10] (9-7-1998). 1331-1333.
  • Russo, R.E., D.B. Geohegan, R.F. Haglund, and K. Murakami. Conference on Laser Ablation — Preface. Applied Surface Science 129(1998). 7-10.
  • Russo, R.E., X.L. Mao, and O.V. Borisov. Laser ablation sampling. Trac-Trends in Analytical Chemistry 17[8-9] (1998). 461-469.
  • Russo, R.E., D.B. Geohegan, R.F. Haglund, and K. Murakami. Laser ablation — Preface. Applied Surface Science 129(1998). VII-VIX.
  • Spear, J.D., G.L. Klunder, and R.E. Russo. Photothermal deflection spectroscopy of an aqueous sample in a narrow bore quartz capillary. Review of Scientific Instrumentation 69[2259] (1998). 2267.

1997

  • Klunder, G.L., J.E. Andrews, P. Grant, B.D. Andresen, and R.E. Russo. Analysis of fission products using capillary electrophoresis with on-line radioactivity detedtion. Analytical Chemistry 69(1997). 2988-2993.
  • Mao, X.L., W.T. Chan, and R.E. Russo. Influence of sample surface condition on chemical analysis using laser ablation inductively coupled plasma atomic emission spectroscopy. Applied Spectroscopy 51[7] (1997). 1047-1054.
  • Mao, X.L., and R.E. Russo. Observation of plasma shielding by measuring transmitted and reflected laser pulse temporal profiles. Applied Physics A: Materials Science and Processing 64[1] (1997). 1-6.
  • Mao, X.L., and R.E. Russo. Optimization and calibration of laser ablation inductively coupled plasma atomic emission spectrometry by measuring vertical spatial intensity profiles. Journal of Analytical Atomic Spectrometry 12[2] (1997). 177-182.
  • Perry, D.L., A.C. Thompson, R.E. Russo, X.L. Mao, and K.L. Chapman. Characterization of quaternary metal oxide films by synchrotron X-ray fluorescence microprobe. Applied Spectroscopy 51[12] (1997). 1781-1783.
  • Russo, R.E. Laser ablation for chemical analysis. (1997).
  • Shannon, M.A. X.L. Mao, and R.E. Russo. Monitoring laser-energy coupling to solid materials: Plasma-shielding and phase change. Materials Science and Engineering B: Solid State Materials for Advanced Technology 45[1-3] (1997). 172-179.

1996

  • Caetano, M., X.L. Mao, and R.E. Russo. Laser ablation solid sampling: Vertical spatial emission intensity profiles in inductively coupled plasma. Spectrochimica Acta Part B: Atomic Spectroscopy 51[12] (1996). 1473-1485.
  • Jeong, S.H., R. Greif, and R.E. Russo. Laser heating of a cavity versus a plane surface for metal targets utilizing photothermal deflection measurements. Journal of Applied Physics 80[4] (1996). 1996-2002.
  • Mao, X.L., W.T. Chan, M. Caetano, M. Shannon, and R.E. Russo. Preferential vaporization and plasma shielding during nano-second laser ablation. Appl.Surf.Sci. 96-98(1996). 126-130.
  • Reade, R.P., and R.E. Russo. Ion-assisted pulsed-laser deposition for the fabrication of Y-Ba-Cu-O multilayer structures using oriented intermediate layers of YSZ and CeO2. Applied Surface Science 96-8(1996). 726-730.
  • Russo, R.E., X.L. Mao, M. Caetano, and M.A. Shannon. Fundamental characteristics of laser-material interactions (ablation) in noble gases at atmospheric pressure using inductively coupled plasma-atomic emission spectroscopy. Appl.Surf.Sci. 96-98(1996). 144-148.
  • Shannon, M.A., Rubinsky B., and R.E. Russo. Mechanical stress power measurements during high-power laser ablation. Journal of Applied Physics 80[8] (10-15-1996). 4665-4672.
  • Shannon, M.A., and R.E. Russo. Monitoring stress power during high-power pulsed laser-material interactions. Applied Surface Science 96-8(1996). 149-153.
  • Spear, J.D., and R.E. Russo. Low noise position sensor for optical probe beam deflection measurements. Review of Scientific Instrumentation 67[7] (1996). 2481-2484.
  • Xu, X., C.P. Grigoropoulos, and R.E. Russo. Nanosecond time resolved thermal emission measurements during pulse excimer laser interaction with materials. Applied Physics A: Materials Science and Processing 62(1996). 51-59.

1995

  • Fernandez, A., X.L. Mao, W.T. Chan, M.A. Shannon, and R.E. Russo. Correlation of spectral emission intensity in the inductively-coupled plasma and laser-induced plasma during laser-ablation of solid samples. Analytical Chemistry 67[14] (7-15-1995). 2444-2450.
  • Grant, P., R.E. Whipple, F. Brazan, J.L. Brunk, K.M. Wong, R.E. Russo, and B.D. Andresen. Search for evidence of nuclear involvement in the fatal explosion of a "cold fusion" experiment. Journal of Radioanalytical and Nuclear Chemistry 193(1995). 165-169.
  • Klunder, G.L., and R.E. Russo. A core-base intrinsic fiber-optic absorption sensor for the detection of volatile organic compounds. Appl.Spectrosc. 49(1995). 379-385.
  • Longtin, J.P., C.L. Tien, M.M. Kilgo, and R.E. Russo. Temperature measurements during hing-intensity laser-liquid interactions. Experimental Heat Transfer 8(1995). 241-255.
  • Mao, X.L., D.L. Perry, and R.E. Russo. Thin films of Calcium-Nickel-Potassium oxide fabricated by pulsed laser deposition. High Temperature and Materials Science 33(1995). 117-123.
  • Mao, X.L., M. Shannon, A. Fernandez, and R.E. Russo. Temperature and emission spatial profile of laser-induced plasmas during ablation using time-integrated emission spectroscopy. Appl.Spectrosc. 49[7] (1995). 1054-1061.
  • Qui, T.Q, C.L. Tien, M. Shannon, and R.E. Russo. Thermal and mechanical response of gold films during nanosecond laser pulse heating. Journal of Experimental Heat Transfer 7(1995). 175-188.
  • Reade, R.P., S. Church, and R.E. Russo. Ion assisted pulsed laser deposition. Review of Scientific Instrumentation 66(1995). 3610-3614.
  • Reade, R.P., P. Berdahl, L.W. Shaper, and R.E. Russo. YBaCuO multilayer structures with amorphous dielectric layers for multichip modules using ion-assisted pulsed laser deposition. Appl.Phys.Lett. 66(1995). 2001-2003.
  • Reade, R.P., P. Berdahl, L.W. Shaper, and R.E. Russo. Multilayer YBaCuO structures using ion-assisted intermediate layers. IEEE Transactions on Applied Superconductvity 5[2] (1995). 2007-2010.
  • Russo, R.E. Laser-ablation. Applied Spectroscopy 49[9] (1995). A14-A28.
  • Russo, R.E., X.L. Mao, W.T.Chan, M.F. Bryant, and W.F. Kinard. Laser-ablation sampling with inductively-coupled plasma-atomic emission-spectrometry for the analysis of prototypical glasses. Journal of Analytical Atomic Spectrometry 10[4] (1995). 295-301.
  • Shannon M.A, X.L. Mao, A. Fernandez, W.T. Chan, and R.E. Russo. Laser ablation mass removal versus incident power density during solid sampling for inductively coupled plasma atomic emission spectroscopy. Anal.Chem. 67[24] (1995). 4522-4529.
  • Shannon, M.A., and R.E. Russo. Laser-Induced Stresses Versus Mechanical-Stress Power Measurements During Laser-Ablation of Solids. Applied Physics Letters 67[22] (11-27-1995). 3227-3229.
  • Xu, X., C.P. Grigoropoulos, and R.E. Russo. Transient temperature measurement during pulsed excimer laser heating of thin semiconductor films. Journal of Heat and Mass Transfer 117(1995). 17-24.
  • Xu, X., C.P. Grigoropoulos, and R.E. Russo. Heat transfer in excimer laser melting of thin polysilicon layers. Journal of Heat Transfer 117(1995). 708-715.

1994

  • Faulques, E., R.E. Russo, and D.L. Perry. Raman studies of uranyl nitrate and its hydroxy bridged dimer. Spectrochimica Acta A 50(1994). 757-763.
  • Kilgo, M.M., R. Greif, and R.E. Russo. Questions in fluid mechanics — Flow near thermodynamic critical points. Journal of Fluids Engineering 115(1994). 546-547.
  • Klunder, G.L., J. Burck, H.J. Ache, R.J. Silva, and R.E. Russo. Temperature effects on a fiber optic evanescent field adsorption sensor. Appl.Spectrosc. 48(1994). 387-393.
  • Oblonsky, L.J., T.M. Devine, J.W. Ager, S.S. Perry, X.L. Mao, and R.E. Russo. Surface-Enhanced Raman-Scattering from Pyridine Adsorbed on Thin-Layers of Stainless-Steel. Journal of the Electrochemical Society 141[12] (1994). 3312-3317.
  • Rudnicki, J.D., D.W. Shoesmith, and R.E. Russo. Photothermal deflection spectroscopy investigations of Uranium dioxide oxidation. J.Electroana.Chem. 372(1994). 63-74.
  • Russo, R.E., S. Mao, and D.L. Perry. Pulse laser deposition of thin films. Chemtech 24(1994). 14-18.
  • Russo, R.E., G.E. Pelkey, P. Grant, R.E. Whipple, and B.D. Andresen. Laser interrogation of latent vehicle registration number. Journal of Forensics Science 39[5] (1994). 1331-1334.
  • Russo, R.E., X.L. Mao, and D.L. Perry. Pulsed-Laser Deposition Technique for Ca(1-X)Nixo and Y1Ba2Cu3O Thin-Films. Abstracts of Papers of the American Chemical Society 207(3-13-1994). 29-IEC.
  • Russo, R.E., X.L. Mao, and D.L. Perry. Make Catalytic Coatings by Pulsed-Laser Deposition — the Technique Produces Multicomponent Inorganic Films with Defined Composition and Structure — It Is Illustrated by the Preparation of A Supported Caniko Catalyst. Chemtech 24[12] (1994). 14-17.
  • Shannon, M., B. Rubinsky, and R.E. Russo. Detecting laser induced phase change at the surface of solids via latent heat of melting with a photothermal deflection technique. J.Appl.Phys. 75(1994). 1473-1485.
  • Wruck, R.J., R.J. Silva, and R.E. Russo. Thermal lens spectroscopy of plutonium using laser diode and fiber optics. J. Alloys and Compounds 213(1994). 481-483.
  • Xu, X., C.P. Grigoropoulos, and R.E. Russo. Measurement of solid/liquid interface temperature during pulsed excimer laser malting of polycrystalline silicon films. Appl.Phys.Lett. 65(1994). 1745-1747.

1993

  • Faulques, E., R.E. Russo, and D.L. Perry. Raman spectral studies of uranyl sulfate and its urea complex structural isomeres. Spectrochimica Acta A 49(1993). 975.
  • Gupta, S.K., P. Berdahl, R.E. Russo, G. Briceno, and A. Zettl. Pulse I-V characteristics measurement to study dissipation mechanism in epitaxial YBaCuO thin films at hihg current densities. Physica C 206(1993). 335.
  • Mao, X.L., Perry D.L., and R.E. Russo. Ca(1-X)Nixo Catalytic Thin-Films Prepared by Pulsed-Laser Deposition. Journal of Materials Research 8[9] (1993). 2400-2403.
  • Mao, X.L., W.T. Chan, M.A. Shannon, and R.E. Russo. Plasma Shielding During Picosecond Laser Sampling of Solid Materials by Ablation in He Versus Ar Atmosphere. Journal of Applied Physics 74[8] (10-15-1993). 4915-4922.
  • Rudnicki, J.D., G.M. Bissard, H.A. Glasser, R.E. Russo, F.R. McLarnon, and E.J. Cairns. Effects of supporting electrolyte and beam diameter on probe beam deflection experiments. J.Electroana.Chem. 362(1993). 55-69.
  • Schurig, D.A., G.L. Klunder, R.J. Silva, and R.E. Russo. Signal analysis of transients in pulsed photoacoustic spectroscopy. Review of Scientific Instrumentation 64(1993). 363.
  • Spear, J.D., R.J. Silva, G.L. Klunder, and R.E. Russo. Collinear photothermal deflection spectroscopy of liquid samples at varying temperatue. Appl.Spectrosc. 47(1993). 1580-1584.

1992

  • Bennet, D.A., D. Hoffman, H. Nitsche, R.E. Russo, R.A. Torres, P.A. Baisden, J.E. Andrews, C.E. Plamer, and R.J. Silva. Hydrolisis and carbonate complexation of dioxoplutonium (V). Radiochimica Acta 56(1992). 15.
  • Berdahl, P., X.L. Mao, R.P. Reade, M.D. Rubin, R.E. Russo, and E. Yin. Angular Magnetoresistance Provides Texture Information on High-Tc Conductors. Physica C 195[1-2] (5-20-1992). 93-102.
  • Chan, W.T., X.L. Mao, and R.E. Russo. Differential Vaporization During Laser Ablation Deposition of Bi-Sr-Ca-Cu-O Superconducting Materials. Applied Spectroscopy 46[6] (1992). 1025-1031.
  • Faulques, E., and R.E. Russo. Characterization of HTSC thin films with Raman scattering. (1992).
  • Faulques, E., and R.E. Russo. Raman spectra of iodide species in intercolated IBiSrCaCuO. Solid State Comm. 82(1992). 531.
  • Klunder, G.L., R.J. Silva, and R.E. Russo. Photoacoustic spectroscopy and the effect of amplified spontaneous emission. Analytical Chemistry 64(1992). 2429.
  • Lam, Q.H., C.D. Jeffries, P. Berdahl, R.E. Russo, and R.P. Reade. Complex AC permeability and harmonic generation of a thin film of YBCO: Measurements and models. Physics Review B 46(1992). 437.
  • Reade, R.P., P. Berdahl, S.M. Garrison, and R.E. Russo. Laser deposition of biaxialy-textured Yttria-stabilized Zirconia buffer layers on Polycrystalline metallic alloys for high critical current YBCO thin films. Appl.Phys.Lett. 61(1992). 2231.
  • Rojas, D., R.J. Silva, and R.E. Russo. Thermal lens spectroscopy using diode laser and optical fibers. Review of Scientific Instrumentation 63(1992). 2989.
  • Rostami, A.A., R. Greif, and R.E. Russo. Modified enthalpy method applied to rapid melting and solidification. International Journal of Heat and Mass Transfer 35(1992). 2161.
  • Russo, R.E., W.T.Chan, and X.L. Mao. Nanosecond Versus Picosecond Laser Ablation for Chemical-Analysis Using Icp-Aes. Abstracts of Papers of the American Chemical Society 203(4-5-1992). 135-ANYL.
  • Shannon, M., A.A. Rostami, and R.E. Russo. Photothermal deflection measurements for monitoring heat-transfer during modulated laser-heating of solids. J.Appl.Phys. 71(1992). 53.
  • Spear, J.D., R.E. Russo, J.E. Andrews, and P. Grant. Lens correction for the implementation of cylindritcal vessels in a spectrophotometer. Review of Scientific Instrumentation 63(1992). 4457.

1991

  • Chan, W.T., and R.E. Russo. Study of laser material interaction using inductively coupled plasma atomic emission spectroscopy. Spectrochim.Acta Pt.B-At.Spec. 46(1991). 1471.
  • Lam, Q.H., C.D. Jeffries, P. Berdahl, R.E. Russo, G. Briceno, and A. Zettl. Harmonic generation in YBaCuO and BiSrCaCuO. Amer.Phys.Soc. 36(1991). 568.
  • Mao, X.L., P. Berdahl, R.E. Russo, H.B. Liu, and J.C. Ho. Bi-Pb-Sb-Sr-Ca-Cu-O Superconducting Thin-Films Deposited on Ni-Based Alloy with Yttria-Stabilized Zirconia Intermediate Layers. Physica C 183[1-3] (11-10-1991). 167-171.
  • Reade, R.P., X.L. Mao, and R.E. Russo. Characterization of Y-Ba-Cu-O Thin-Films and Yttria-Stabilized Zirconia Intermediate Layers on Metal-Alloys Grown by Pulsed Laser Deposition. Applied Physics Letters 59[6] (8-5-1991). 739-741.
  • Rojas, D., R.J. Silva, J.D. Spear, and R.E. Russo. Dual beam optical fiber thermal lens spectrometry. Analytical Chemistry 63(1991). 1927.
  • Spear, J.D., and R.E. Russo. Transverse photothermal beam deflection within a solid. Applied Physics 70(1991). 580.

1990

  • Mao, X.L., R.E. Russo, H.B. Liu, and J.C. Ho. As-Deposited Sb-Doped Bi-Pb-Sr-Ca-Cu-O Thin-Films Prepared by Pulsed Laser Deposition. Applied Physics Letters 57[24] (12-10-1990). 2591-2593.
  • Russo, R.E., R.P. Reade, J.M. McMillan, and B.L. Olsen. Metal buffer layers and YBaCuO thin films on Pt and Stainless steel using pulsed laser deposition. J.Appl.Phys. 68(1990). 1354.
  • Russo, R.E., D. Rojas, P. Robouch, and R.J. Silva. Remote photoacoustic measurements in aqueous solutions using an optical fiber. Review of Scientific Instrumentation 61(1990). 3729.
  • Spear, J.D., R.E. Russo, and R.J. Silva. Collinear photothermal deflection spectroscopy with light scattering samples. Applied Optics 29(1990). 4225.
  • Torres, R.A., C.E. Palmer, P.A. Baisden, R.J. Silva, and R.E. Russo. Comparison of photoacoustic spectroscopy, conventional absorption spectroscopy, and potentiometry as probes of Lanthanide speciation. Analytical Chemistry 62(1990). 298.

1980s

  • Balooch, M., D.R. Olander, and R.E. Russo. Y-Ba-Cu-O superconducting films produced by long-pulse laser vaporization. Appl.Phys.Lett. 55(1989). 197.
  • Spear, J.D., R.E. Russo, and R.J. Silva. Differential photothermal deflection spectroscopy using a single position sensor. Appl.Spectrosc. 42(1988). 1103.
  • Russo, R.E., F.R. McLarnon, J.D. Spear, and E.J. Cairns. Probe beam deflection for In situ measurements of concentration and spectroscopic behavior during copper oxidization and reduction. J.Electrochem.Soc. 134(1987). 2783.
  • Becker, P., G. Willians, R.E. Russo, N.E. Edlestein, and J.A. Koningstein. Resonance electronic Raman scattering in Erbium phosphate crystals. Opt.Lett. 11(1986). 282.
  • Russo, R.E., and A.J. Hunt. Comparison of Ethyl versus methyl sol-gels for silica aerogel using polar nephelometry. J.Non.Cryst.Solids 86(1986). 219.
  • Becker, P., G. Willians, R.E. Russo, N.E. Edlestein, and J.A. Koningstein. Intensities and asymmetries of electronic Raman scattering in Thulium and Erbium phosphate. Physics Review B 31(1985). 8102.
  • Hunt, A.J., J. Ayer, F. Miller, R.E. Russo, and W. Yuen. Solar radiant processing of gas particle systems for producing useful fuel and chemicals. AIChE 81(1985). 191.