Theoretical results from multistate semirelativistic Breit-Pauli R-matrix calculations and two first-order distorted-wave calculations are presented for electron-impact excitation of krypton from the (4p55s) J = 0,2 metastable states to the (4p55s) and (4p55p) manifolds. Except for a few cases, in which the method to account for relativistic effects becomes surprisingly critical, fair overall agreement between the predictions from the various theoretical models is achieved for intermediate and high energies. However, significant discrepancies remain with the few available experimental data
In this presentation, we discuss results from two separate bodies of work. In the first, we investig...
We have employed the Dirac R-matrix method to determine electron-impact excitation cross sections an...
Electron impact excitation of the resonance levels of Ne, Ar, Kr and Xe has been studied for electro...
Electron-impact excitation of argon from the 3p54s (J=0,2) metastable states to the 3p54p (J=0,1,2,3...
Electron-impact excitation of the 4p55s and 4p55p levels of Kr I has been investigated in detail by ...
First-order many-body theory has been used to calculate the differential and integral cross sections...
Klaus Bartschat is a professor of physics at Drake University, Des Moines, Iowa.We report on a serie...
Electron-photon coincidence measurements are reported of the excitation of the 4s'[1/2]10 state of A...
We report on a series of calculations for electron-impact excitation of the (5p56p) states in xenon ...
Results of a semirelativistic R-matrix calculation are compared with experimental values for light p...
Previous relativistic DWBA calculations based on the Pauli form of the Schrodinger equation have bee...
We have determined that the dynamics of the polarized electron impact excitation of the 4p55p manifo...
Cross section data for electron impact electronic excitation of electronically excited states of H2...
Absolute photoionization cross sections for Kr5+ were measured in the photon energy range 74–175 eV ...
A series of R-matrix calculations on K+ is used to derive electron excitation and ionization cross s...
In this presentation, we discuss results from two separate bodies of work. In the first, we investig...
We have employed the Dirac R-matrix method to determine electron-impact excitation cross sections an...
Electron impact excitation of the resonance levels of Ne, Ar, Kr and Xe has been studied for electro...
Electron-impact excitation of argon from the 3p54s (J=0,2) metastable states to the 3p54p (J=0,1,2,3...
Electron-impact excitation of the 4p55s and 4p55p levels of Kr I has been investigated in detail by ...
First-order many-body theory has been used to calculate the differential and integral cross sections...
Klaus Bartschat is a professor of physics at Drake University, Des Moines, Iowa.We report on a serie...
Electron-photon coincidence measurements are reported of the excitation of the 4s'[1/2]10 state of A...
We report on a series of calculations for electron-impact excitation of the (5p56p) states in xenon ...
Results of a semirelativistic R-matrix calculation are compared with experimental values for light p...
Previous relativistic DWBA calculations based on the Pauli form of the Schrodinger equation have bee...
We have determined that the dynamics of the polarized electron impact excitation of the 4p55p manifo...
Cross section data for electron impact electronic excitation of electronically excited states of H2...
Absolute photoionization cross sections for Kr5+ were measured in the photon energy range 74–175 eV ...
A series of R-matrix calculations on K+ is used to derive electron excitation and ionization cross s...
In this presentation, we discuss results from two separate bodies of work. In the first, we investig...
We have employed the Dirac R-matrix method to determine electron-impact excitation cross sections an...
Electron impact excitation of the resonance levels of Ne, Ar, Kr and Xe has been studied for electro...
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