Photoionisation cross sections of the main ionisation process of neon have been calculated for a wide range of photon energies. The partial cross sections were computed as a sum of a contribution expressible in terms of the Dyson amplitude corresponding to the ionisation processes considered plus a correction term. The numerical results obtained, in satisfactory agreement with the experiment, show, as expected, that for outer-shell ionisation the correction term decreases rapidly with the photon energy. For inner-shell ionisation, however, the correction term appears to be still important at relevant ( approximately 100 eV) energies of the photoelectron. Results given by different choices of the photoelectron waves are also presented.
Photoionisation cross section calculations using dyson amplitudes: Results for Ne
Carravetta V;
1983
Abstract
Photoionisation cross sections of the main ionisation process of neon have been calculated for a wide range of photon energies. The partial cross sections were computed as a sum of a contribution expressible in terms of the Dyson amplitude corresponding to the ionisation processes considered plus a correction term. The numerical results obtained, in satisfactory agreement with the experiment, show, as expected, that for outer-shell ionisation the correction term decreases rapidly with the photon energy. For inner-shell ionisation, however, the correction term appears to be still important at relevant ( approximately 100 eV) energies of the photoelectron. Results given by different choices of the photoelectron waves are also presented.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
