Enhanced production of anionic and excited neutral fragments of gaseous HCCl3 near the Cl 2p1/2,3/2 ionization threshold

Abstract

Following photoexcitation of Cl 2p electrons to various resonances, the fragmentation dynamics of anionic and excited neutral fragments of gaseous HCCl3 were investigated on combining measurements of photon-induced anionic dissociation, X-ray absorption and UV/visible dispersed fluorescence. The Cl 2p core-to-Rydberg excitations near the ionization threshold produce a notable enhancement of excited neutral fragments (C* and CH*), which is explained in terms of the contribution from a shake-modified resonant Auger decay and post-collision interaction. The anion yields significantly reinforced just above Cl 2p ionization threshold of gaseous HCCl3 are predominantly mediated by photoelectron recapture through post-collision interaction. The present work demonstrates that the detection of excited neutral fragments and anions offer specific insight into the fragmentation dynamics of high-lying molecular-ion states of core-excited molecules.