We present an experimental and theoretical study of the angular correlation between resonant Auger and subsequent Coster-Kr¨onig electrons emitted in the cascade decay of Ne (1s-13p) resonance excited by linearly polarized light. The angular correlation has been measured for different relative orientations between the light polarization, the emission direction of the Coster-Kronig electron and the emission angle of the resonant Auger electron. All the experimental angular patterns are measured as a function of the resonant Auger emission angle and are compared with multiconfiguration Dirac-Fock model numerical results, which include electron correlations in each step of the cascade. The agreement between theory and experiment is different for the different considered decay channels; forvthe cases in which disagreement is larger it is argued that an extended configuration space must be taken into account to reproduce the experimental data.

Study of electronic correlations in the Auger cascade decay from Ne'1s'3p

L Avaldi;R Camilloni;M Coreno;
2005

Abstract

We present an experimental and theoretical study of the angular correlation between resonant Auger and subsequent Coster-Kr¨onig electrons emitted in the cascade decay of Ne (1s-13p) resonance excited by linearly polarized light. The angular correlation has been measured for different relative orientations between the light polarization, the emission direction of the Coster-Kronig electron and the emission angle of the resonant Auger electron. All the experimental angular patterns are measured as a function of the resonant Auger emission angle and are compared with multiconfiguration Dirac-Fock model numerical results, which include electron correlations in each step of the cascade. The agreement between theory and experiment is different for the different considered decay channels; forvthe cases in which disagreement is larger it is argued that an extended configuration space must be taken into account to reproduce the experimental data.
2005
Istituto di Nanotecnologia - NANOTEC
Auger cascade decay; Resonant Auger
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/20.500.14243/38449
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