Abstract
Resonant Auger spectra of the ethene molecule excited at energies across the C1s energy band are reported. Our measurements address the unexpected variation of the intensity of the A state with respect to the other singly ionized valence states. An approach, based on group theory and calculations using Coulomb 4-center integrals, is proposed to explain the behaviour of the intensity of the ground state and excited states of the ion upon resonant excitation. The new method provides a calculationally inexpensive route to predict relative intensities of different resonant Auger bands in polyatomic molecules, without the need for an exhaustive knowledge of the potential energy surfaces of the electronic states involved.
Highlights
In the resonant Auger process an inner shell electron is promoted to an excited state upon absorption of a photon
The inner shell resonant processes, in ethene, have been studied mostly in relation to the absorption spectra where the issue of the breaking of the symmetry in the core-excited state leading to the core-hole localization [2,3,4,5] has been addressed
In a timeindependent formulation, the matrix element which governs the resonant process is formed by two parts: the first linking the ground to the intermediate state and the second linking the intermediate state to the final state
Summary
An experimental and theoretical study of the resonant Auger spectrum of the ethene molecule. This content has been downloaded from IOPscience. Please scroll down to see the full text. 16 073022 (http://iopscience.iop.org/1367-2630/16/7/073022) View the table of contents for this issue, or go to the journal homepage for more. Download details: IP Address: 160.80.2.8 This content was downloaded on 10/09/2014 at 10:49 Please note that terms and conditions apply. Received 12 March 2014, revised 30 May 2014 Accepted for publication 3 June 2014 Published 17 July 2014 New Journal of Physics 16 (2014) 073022 doi:10.1088/1367-2630/16/7/073022
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