Nonrelativistic double photoeffect on K -shell electrons

Nonrelativistic double photoeffect on K -shell electrons

We investigate the double K-shell ionization of heliumlike ions caused by the absorption of a single photon with energies being much smaller than the rest energy of an electron. In the near-threshold region, differential and total cross sections of the process are calculated for light ions, taking i...

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Veröffentlicht in:Physical review. A, Atomic, molecular, and optical physics Atomic, molecular, and optical physics, 2004-03, Vol.69 (3), Article 032703
Hauptverfasser: Mikhailov, A. I., Mikhailov, I. A., Moskalev, A. N., Nefiodov, A. V., Plunien, G., Soff, G.
Format: Artikel
Sprache:eng
Schlagworte:
ABSORPTION
ANGULAR DISTRIBUTION
ASYMMETRY
ATOMIC AND MOLECULAR PHYSICS
ATOMIC NUMBER
ATOMS
CATIONS
COMPARATIVE EVALUATIONS
CONVERGENCE
ELECTRIC DIPOLES
ELECTRONS
GREEN FUNCTION
INNER-SHELL IONIZATION
K SHELL
LIGHT IONS
PERTURBATION THEORY
PHOTOIONIZATION
PHOTON BEAMS
PHOTON-ATOM COLLISIONS
PHOTONS
QUANTUM ELECTRODYNAMICS
TOTAL CROSS SECTIONS
WAVE FUNCTIONS
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Beschreibung
Zusammenfassung:We investigate the double K-shell ionization of heliumlike ions caused by the absorption of a single photon with energies being much smaller than the rest energy of an electron. In the near-threshold region, differential and total cross sections of the process are calculated for light ions, taking into account the leading orders of the 1/Z and {alpha}Z expansions. QED perturbation theory with respect to the parameter 1/Z exhibits a fast convergence in the entire nonrelativistic domain for moderate nuclear charge numbers Z{>=}2. Going beyond the electric dipole approximation leads to a forward/backward asymmetry in the angular distributions for the ejected electrons with respect to the incident photon beam. A comparison of theoretical predictions for the ratio of double-to-single photoionization cross sections with available experimental data for a number of neutral atoms is also presented.
ISSN:1050-2947
1094-1622
DOI:10.1103/PhysRevA.69.032703