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Evaluation of the Laser Ablation of Transition Metals/Metal Compounds by Time-of-Flight and Optical Spectroscopy

Published online by Cambridge University Press:  01 January 1992

Terry L. Thiem
Affiliation:
Spacecraft Interactions Branch, Phillips Laboratory, Hanscom AFB, MA
Lyn R. Watson
Affiliation:
Spacecraft Interactions Branch, Phillips Laboratory, Hanscom AFB, MA
James A. Gardner
Affiliation:
Spacecraft Interactions Branch, Phillips Laboratory, Hanscom AFB, MA
Rainer A. Dressier
Affiliation:
Spacecraft Interactions Branch, Phillips Laboratory, Hanscom AFB, MA
Richard H. Salter
Affiliation:
Spacecraft Interactions Branch, Phillips Laboratory, Hanscom AFB, MA
Edmond Murad
Affiliation:
Spacecraft Interactions Branch, Phillips Laboratory, Hanscom AFB, MA
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Abstract

A fast pulsed beam of neutral metal atoms is produced by laser vaporization ofa solid metal or metal compound sample in a modified high-temperature mass spectrometer. Atomic beams of several eV kinetic energy are generated as measured using time-of-flight spectroscopy. The energy range can be controlled with the laser power, similar to studies conducted on thin metal films. The solid samples, however, overcome the problem of short sample lifetime associated with irradiating thin films. Samples have been irradiated for several hours without observing a change in beam intensity or energy, thus offering an interesting source for kinetic studies. Initial results of studies done on copper, nickel, zinc and related oxide, sulfide, bromide, and chloride salts will be discussed as to their applicability to serve as a fast atom source. Spectroscopic data from these compounds will also be presented.

Type
Research Article
Copyright
Copyright © Materials Research Society 1993

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References

REFERENCES

1. Ready, J.F., Effects of High-Power Laser Radiation, (Academic, New York, London, 1971), p. 1.Google Scholar
2. DeMichelis, C., IEEE J. Quantum Electron., QE–6, 630 (1970).Google Scholar
3. Friichtenicht, J.F., Rev. Sci. Instrum, 45(1), 5156 (1974).Google Scholar
4. Thiem, T.L., Watson, L.R., Dressier, R.A., Salter, R.H., and Murad, E., ‘Laboratory Study of the Thermochemical Properties of Materials Used in Spacecraft’, GL-TR-90-0224, 1990, 126.Google Scholar
5. Thiem, T.L., Watson, L.R., Dressler, R.A., Salter, R.H., and Murad, E., ‘Generation of Pulsed, Energy-Selected Metal Atom Beam by Laser Vaporization of Metal Compounds’, PL-TR-912279, 1991, 115.Google Scholar