Jahn-Teller Distortion and Dissociation of CCl4+ by Transient X-ray Spectroscopy Simultaneously at the Carbon K- and Chlorine L-Edge

Abstract

X-ray Transient Absorption Spectroscopy (XTAS) and theoretical calculations are used to study CCl4+ prepared by 800 nm strong-field ionization. XTAS simultaneously probes atoms at the carbon K-edge (280-300 eV) and chlorine L-edge (195-220 eV). Comparison of experiment to X-ray spectra computed by orbital-optimized density functional theory (OO-DFT) indicates that after ionization, CCl4+ undergoes symmetry breaking driven by Jahn-Teller distortion away from the initial tetrahedral structure (Td) in 62 fs. The resultant symmetry-broken covalently bonded form subsequently separates to a noncovalently bound complex between CCl3+ and Cl over 9010 fs, which is again predicted by theory. Finally, after more than 800 fs, L-edge signals for atomic Cl are observed, indicating dissociation to free CCl3+ and Cl. The results for Jahn-Teller distortion to the symmetry-broken form of CCl4+ and formation of the Cl -- CCl3+ complex characterize previously unobserved new species along the route to dissociation.