Molecular electronic decoherence following attosecond photoionisation

Author:

Arnold CarolineORCID,Larivière-Loiselle Céline,Khalili Khadijeh,Inhester LudgerORCID,Welsch RalphORCID,Santra RobinORCID

Abstract

Abstract Attosecond pulses can be used to generate coherent superpositions of cationic electronic states in molecules through photoionisation. These can drive coherent electronic dynamics, which may decay within a few femtoseconds due to nuclear motion. In this work, we study the impact of the photoelectron on decoherence in the valence electron system of molecules following attosecond photoionisation. To this end, we include the photoelectron as a classical point charge in a quantum–classical simulation of light-induced ultrafast molecular dynamics and consider ionisation by sub-femtosecond pulses with distinct qualities. By disentangling the contributions of photoelectron and nuclei to the overall electronic decoherence, we find that the photoelectron causes partial decoherence within the first 50 attoseconds. This timescale is noticed to be independent of the ionising pulse. Full electronic decoherence is only seen when the spatial extension of the nuclear wave packet is considered.

Funder

Deutsche Forschungsgemeinschaft

Publisher

IOP Publishing

Subject

Condensed Matter Physics,Atomic and Molecular Physics, and Optics

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