Abstract
SynopsisStokes and Electron Impact Coherence Parameters (EICPs) for electronic excitation of 41P1 state of zinc atoms have been measured for incident electron energy of 80 eV. The experimental data are presented together with Convergent Close Coupling (CCC) theoretical predictions. Our results are compared with recently published Relativistic Distorted-Wave Approximation (RDWA) calculations.
Highlights
Synopsis Stokes and Electron Impact Coherence Parameters (EICPs) for electronic excitation of 41P1 state of zinc atoms have been measured for incident electron energy of 80 eV
Our results are compared with recently published Relativistic Distorted–Wave Approximation (RDWA) calculations
This work is a continuation of our study on electron–zinc atom collisions [5,6,7], which is a part of our broader research on He-like atoms: Ca [8, 9], Cd [10,11,12] and He [13,14]
Summary
Synopsis Stokes and Electron Impact Coherence Parameters (EICPs) for electronic excitation of 41P1 state of zinc atoms have been measured for incident electron energy of 80 eV. The experimental data are presented together with Convergent Close Coupling (CCC) theoretical predictions.
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