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Modified Adiabatic Approximation for A Hydrogen Atom Moving in A Magnetic Field

Published online by Cambridge University Press:  12 April 2016

V.G. Bezchastnov  and
A.Y. Potekhin
V.G. Bezchastnov
Affiliation:
Ioffe Institute of Physics and Technology, 194021, St.Petersburg, Russia
A.Y. Potekhin
Affiliation:
Ioffe Institute of Physics and Technology, 194021, St.Petersburg, Russia

Abstract

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Motion of a hydrogen atom across the magnetic field shifts center of electron density distribution. For strong magnetic fields, the radiative transitions can be considered in the modified adiabatic approximation in which the shifts are taken into account. The method is illustrated by calculating the photoionization cross sections.

Type
Posters
Information
International Astronomical Union Colloquium , Volume 147: The Equation of State in Astrophysics , 1994 , pp. 555 - 559
Copyright
Copyright © Cambridge University Press 1994

References

Gorkov, L.P. and Dzyaloshinsky, I.E., Sov. Phys.–JETP 26, 449, (1968)Google Scholar
Ipatova, I.P., Maslov, A.Y. and Subashiev, A.V., Sov. Phys.–JETP 60, 1037, (1984)Google Scholar
Pavlov, G.G. and Mészáros, P., Astrophys. J., accepted, (1993)Google Scholar
Potekhin, A.Y. and Pavlov, G.G., Astrophys. J. 407, 330, (1993)Google Scholar
Shibanov, Y.A. et al, Physics of Isolated Pulsars. Proc. Los Alamos Workshop, eds. Van Riper, K. et al. Cambridge University Press, pp. 17481, (1993)Google Scholar
Vincke, M., Le Dourneuf, M. and Baye, D., J. Phys. B. 25, 2787, (1992)Google Scholar