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Atomic Photoeffect in the RangeEγ=1−2000keV
Copyright policy )American Physical Society (APS)Atomic Photoeffect in the RangeEγ=1−2000keV
Photoelectric cross sections are presented for photon energies in the range 1-2000 keV. The atomic wave functions have been evaluated using Shalitin's modified Fermi-Amaldi potential, except for uranium, for which the Thomas-Fermi potential is used. The results are probably accurate to a few percent.
Microsoft Academic Graph classification: Wave function Photoelectric effect Materials science Photon Atomic physics Uranium chemistry.chemical_element chemistry Range (particle radiation)
arXiv: Condensed Matter::Quantum Gases Astrophysics::High Energy Astrophysical Phenomena
General Physics and Astronomy
General Physics and Astronomy
Microsoft Academic Graph classification: Wave function Photoelectric effect Materials science Photon Atomic physics Uranium chemistry.chemical_element chemistry Range (particle radiation)
arXiv: Condensed Matter::Quantum Gases Astrophysics::High Energy Astrophysical Phenomena
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Photoelectric cross sections are presented for photon energies in the range 1-2000 keV. The atomic wave functions have been evaluated using Shalitin's modified Fermi-Amaldi potential, except for uranium, for which the Thomas-Fermi potential is used. The results are probably accurate to a few percent.