Abstract
Based on the many-particle theory, a general approach to the stimulated polarization effects in a strong periodic field is formulated. A relation to the perturbation theory is demonstrated and forms of the effective polarization potentials for isolated atoms and ions and for ions in plasma are presented. The state of the art of the theory of stimulated polarization bremsstrahlung effect is analyzed, and some prospects for further experimental and analytical investigations are outlined.
Similar content being viewed by others
REFERENCES
A. I. Akhiezer and V. B. Berestovskii, Quantum Electrodynamics [in Russian], Nauka, Moscow (1989).
M. Amus'ia, V. Buimistrov, B. Zon, et al. Polarization Bremsstrahlung of Particles and Atoms, Plenum Press, N. Y. (1992).
D. A. Kirzhnits, Field Methods in Many-Particle Theory [in Russian], Gosatomizdat, Moscow (1963).
P. A. Golovinski, Teor. Mat. Fiz., 97,No. 1, 121 (1993).
L. P. Rappoport, B. A. Zon, and N. L. Manakov, Theory of Multiphoton Processes in Atoms [in Russian], Atomizdat, Moscow (1978).
P. A. Golovinski, M. A. Dolgopolov, and V. G. Khlebostroev, Fiz. Plazmy, 20,No. 6, 558 (1994).
P. A. Golovinski, Laser Phys., 3,No. 4, 860 (1993).
P. A. Golovinski, J. Opt. Soc. Am., B8,No. 1, 1381 (1991).
P. A. Golovinski, Phys. Lett., A183, 89 (1993).
P. A. Golovinski, Zh. Eksp. Teor. Fiz., 94,No. 7, 87 (1988).
P. A. Golovinski, Zh. Eksp. Teor. Fiz., 103,No. 6, 1947 (1993).
S. Luan, R. Hippler, and H. O. Lutz, J. Phys., B24, 3241 (1991).
B. Wallbank and J. K. Holms, J. Phys., B23, 2997 (1990).
S. L. Chin, Y. Liang, S. Augst, et al., J. Nolin. Opt. Phys. Mat., No. 3, 667 (1995).
P. A. Golovinski and M. A. Dolgopolov, Teor. Mat. Fiz., 95,No. 3, 418 (1993).
Author information
Authors and Affiliations
Rights and permissions
About this article
Cite this article
Golovinskii, P.A. Multiphoton Polarization Bremsstrahlung Effect. Russian Physics Journal 44, 233–235 (2001). https://doi.org/10.1023/A:1011335718005
Issue Date:
DOI: https://doi.org/10.1023/A:1011335718005