Multielectron inner-shell photoexcitation in absorption spectra of Kr : theory and experiment

The probability of Kr 1[ital s] photoionization alone and accompanied by 4[ital p], 3[ital d], 3[ital p], 2[ital s], and 2[ital s]4[ital p] excitations has been calculated as a function of photon energy in the vicinity of the respective thresholds; pertinent energies have been computed including rel...

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Veröffentlicht in:Physical review. A, Atomic, molecular, and optical physics Atomic, molecular, and optical physics, 1993-03, Vol.47 (3), p.1953-1966
Hauptverfasser: SCHAPHORST, S. J, KODRE, A. F, RUSCHEINSKI, J, CRASEMANN, B, ÅBERG, T, TULKKI, J, MAU HSIUNG CHEN, AZUMA, Y, BROWN, G. S
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container_end_page 1966
container_issue 3
container_start_page 1953
container_title Physical review. A, Atomic, molecular, and optical physics
container_volume 47
creator SCHAPHORST, S. J
KODRE, A. F
RUSCHEINSKI, J
CRASEMANN, B
ÅBERG, T
TULKKI, J
MAU HSIUNG CHEN
AZUMA, Y
BROWN, G. S
description The probability of Kr 1[ital s] photoionization alone and accompanied by 4[ital p], 3[ital d], 3[ital p], 2[ital s], and 2[ital s]4[ital p] excitations has been calculated as a function of photon energy in the vicinity of the respective thresholds; pertinent energies have been computed including relativistic, quantum-electrodynamic, and relaxation effects. Sharp features from two-electron excitations are expected in absorption spectra only if at least one of the electrons undergoes a transition to a bound state; this becomes less probable in inner shells. An absorption-spectrometry experiment on Kr has been performed with synchrotron radiation; results generally confirm the predictions but also point toward refinements that are required in the theory and the need for improvements in techniques and synchrotron-radiation sources.
doi_str_mv 10.1103/physreva.47.1953
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Sharp features from two-electron excitations are expected in absorption spectra only if at least one of the electrons undergoes a transition to a bound state; this becomes less probable in inner shells. 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Sharp features from two-electron excitations are expected in absorption spectra only if at least one of the electrons undergoes a transition to a bound state; this becomes less probable in inner shells. An absorption-spectrometry experiment on Kr has been performed with synchrotron radiation; results generally confirm the predictions but also point toward refinements that are required in the theory and the need for improvements in techniques and synchrotron-radiation sources.</abstract><cop>College Park, MD</cop><pub>American Physical Society</pub><pmid>9909149</pmid><doi>10.1103/physreva.47.1953</doi><tpages>14</tpages></addata></record>
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ispartof Physical review. A, Atomic, molecular, and optical physics, 1993-03, Vol.47 (3), p.1953-1966
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source American Physical Society Journals
subjects 664200 - Spectra of Atoms & Molecules & their Interactions with Photons- (1992-)
ABSORPTION SPECTRA
ATOMIC AND MOLECULAR PHYSICS
Atomic properties and interactions with photons
BOUND STATE
BREMSSTRAHLUNG
CROSS SECTIONS
DATA
ELECTRODYNAMICS
ELECTROMAGNETIC RADIATION
ELEMENTS
ENERGY
ENERGY RANGE
ENERGY-LEVEL TRANSITIONS
Exact sciences and technology
EXCITATION
EXPERIMENTAL DATA
FIELD THEORIES
FLUIDS
GASES
INFORMATION
INNER-SHELL IONIZATION
IONIZATION
KRYPTON
MANY-BODY PROBLEM
NONMETALS
NUMERICAL DATA
PHOTOIONIZATION
Photoionization of atoms and ions
Photon interactions with atoms
Physics
PROBABILITY
QUANTUM ELECTRODYNAMICS
QUANTUM FIELD THEORY
RADIATIONS
RARE GASES
RELATIVISTIC RANGE
RELAXATION
SPECTRA
SYNCHROTRON RADIATION
THEORETICAL DATA
THRESHOLD ENERGY
TOTAL CROSS SECTIONS
TWO-BODY PROBLEM
title Multielectron inner-shell photoexcitation in absorption spectra of Kr : theory and experiment
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