Ultrafast dynamics of 2-thiouracil investigated by time-resolved Auger spectroscopy

Abstract:

We present time-resolved ultraviolet-pump x-ray probe Auger spectra of 2-thiouracil. An ultraviolet induced shift towards higher kinetic energies is observed in the sulfur 2p Auger decay. The difference Auger spectra of pumped and unpumped molecules exhibit ultrafast dynamics in the shift amplitude, in which three phases can be recognized. In the first 100 fs, a shift towards higher kinetic energies is observed, followed by a 400 fs shift back to lower kinetic energies and a 1 ps shift again to higher kinetic energies. We use a simple Coulomb-model, aided by quantum chemical calculations of potential energy states, to deduce a C–S bond expansion within the first 100 fs. The bond elongation triggers internal conversion from the photoexcited S2 to the S1 state. Based on timescales, the subsequent dynamics can be interpreted in terms of S1 nuclear relaxation and S1-triplet internal conversion.

SEEK ID: https://publications.h-its.org/publications/1572

DOI: 10.1088/1361-6455/abc9cb

Research Groups: Computational Carbon Chemistry

Publication type: Journal

Journal: Journal of Physics B: Atomic, Molecular and Optical Physics

Citation: J. Phys. B: At. Mol. Opt. Phys. 54(1):014002

Date Published: 17th Dec 2020

Registered Mode: by DOI

Authors: F Lever, D Mayer, D Picconi, J Metje, S Alisauskas, F Calegari, S Düsterer, C Ehlert, R Feifel, M Niebuhr, B Manschwetus, M Kuhlmann, T Mazza, M S Robinson, R J Squibb, A Trabattoni, M Wallner, P Saalfrank, T J A Wolf, M Gühr

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Citation
Lever, F., Mayer, D., Picconi, D., Metje, J., Alisauskas, S., Calegari, F., Düsterer, S., Ehlert, C., Feifel, R., Niebuhr, M., Manschwetus, B., Kuhlmann, M., Mazza, T., Robinson, M. S., Squibb, R. J., Trabattoni, A., Wallner, M., Saalfrank, P., Wolf, T. J. A., & Gühr, M. (2020). Ultrafast dynamics of 2-thiouracil investigated by time-resolved Auger spectroscopy. In Journal of Physics B: Atomic, Molecular and Optical Physics (Vol. 54, Issue 1, p. 014002). IOP Publishing. https://doi.org/10.1088/1361-6455/abc9cb
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Created: 3rd Feb 2023 at 15:28

Last updated: 5th Mar 2024 at 21:25

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