Dependence of atomic photoeffect on a bound-electron magnetic substate. Oh, S. D. & Pratt, R. H. Physical Review A, 10(4):1198–1203, 1974. doi abstract bibtex Flügge, Mehlhorn, and Schmidt have suggested that the dependence of the atomic photoeffect on a bound-electron magnetic substate will have observable consequences for the angular distribution of subsequent Auger electrons. Because of the constraints of parity and time-reversal invariance, this possibility first arises for ejection from LIII and MIII subshells. We have calculated the relative probabilities of \textbarjz\textbar=32 and \textbarjz\textbar=12 ejection from these subshells, both with the relativistic Born approximation (Gavrila's formulation) and in the nonrelativistic dipole approximation. The ratio of these cross sections can have a dramatic energy dependence, ranging from 7 at high energies to 9/11 in the low-energy domain, and dropping to 1/3 near threshold if there is a Cooper minimum. Screening effects are discussed. © 1974 The American Physical Society.
@article{oh_dependence_1974,
title = {Dependence of atomic photoeffect on a bound-electron magnetic substate},
volume = {10},
issn = {10502947},
doi = {10.1103/PhysRevA.10.1198},
abstract = {Flügge, Mehlhorn, and Schmidt have suggested that the dependence of the atomic photoeffect on a bound-electron magnetic substate will have observable consequences for the angular distribution of subsequent Auger electrons. Because of the constraints of parity and time-reversal invariance, this possibility first arises for ejection from LIII and MIII subshells. We have calculated the relative probabilities of {\textbar}jz{\textbar}=32 and {\textbar}jz{\textbar}=12 ejection from these subshells, both with the relativistic Born approximation (Gavrila's formulation) and in the nonrelativistic dipole approximation. The ratio of these cross sections can have a dramatic energy dependence, ranging from 7 at high energies to 9/11 in the low-energy domain, and dropping to 1/3 near threshold if there is a Cooper minimum. Screening effects are discussed. © 1974 The American Physical Society.},
number = {4},
urldate = {2020-01-21},
journal = {Physical Review A},
author = {Oh, Sung Dahm and Pratt, R. H.},
year = {1974},
keywords = {\#nosource},
pages = {1198--1203},
}
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