Author
Listed:
- Tetsuo Katayama
(Japan Synchrotron Radiation Research Institute
RIKEN SPring-8 Center)
- Thomas Northey
(Newcastle University)
- Wojciech Gawelda
(European XFEL
Adam Mickiewicz University)
- Christopher J. Milne
(SwissFEL, Paul Scherrer Institut)
- György Vankó
(Hungarian Academy of Sciences)
- Frederico A. Lima
(European XFEL)
- Rok Bohinc
(SwissFEL, Paul Scherrer Institut)
- Zoltán Németh
(Hungarian Academy of Sciences)
- Shunsuke Nozawa
(High Energy Accelerator Research Organization (KEK)
The Graduate University for Advanced Studies)
- Tokushi Sato
(European XFEL
Deutsches Elektronen-Synchrotron DESY)
- Dmitry Khakhulin
(European XFEL)
- Jakub Szlachetko
(Polish Academy of Sciences)
- Tadashi Togashi
(Japan Synchrotron Radiation Research Institute
RIKEN SPring-8 Center)
- Shigeki Owada
(Japan Synchrotron Radiation Research Institute
RIKEN SPring-8 Center)
- Shin-ichi Adachi
(High Energy Accelerator Research Organization (KEK)
The Graduate University for Advanced Studies)
- Christian Bressler
(European XFEL
University of Hamburg)
- Makina Yabashi
(RIKEN SPring-8 Center)
- Thomas J. Penfold
(Newcastle University)
Abstract
Disentangling the strong interplay between electronic and nuclear degrees of freedom is essential to achieve a full understanding of excited state processes during ultrafast nonadiabatic chemical reactions. However, the complexity of multi-dimensional potential energy surfaces means that this remains challenging. The energy flow during vibrational and electronic relaxation processes can be explored with structural sensitivity by probing a nuclear wavepacket using femtosecond time-resolved X-ray Absorption Near Edge Structure (TR-XANES). However, it remains unknown to what level of detail vibrational motions are observable in this X-ray technique. Herein we track the wavepacket dynamics of a prototypical [Cu(2,9-dimethyl-1,10-phenanthroline)2]+ complex using TR-XANES. We demonstrate that sensitivity to individual wavepacket components can be modulated by the probe energy and that the bond length change associated with molecular breathing mode can be tracked with a sub-Angstrom resolution beyond optical-domain observables. Importantly, our results reveal how state-of-the-art TR-XANES provides deeper insights of ultrafast nonadiabatic chemical reactions.
Suggested Citation
Tetsuo Katayama & Thomas Northey & Wojciech Gawelda & Christopher J. Milne & György Vankó & Frederico A. Lima & Rok Bohinc & Zoltán Németh & Shunsuke Nozawa & Tokushi Sato & Dmitry Khakhulin & Jakub S, 2019.
"Tracking multiple components of a nuclear wavepacket in photoexcited Cu(I)-phenanthroline complex using ultrafast X-ray spectroscopy,"
Nature Communications, Nature, vol. 10(1), pages 1-8, December.
Handle:
RePEc:nat:natcom:v:10:y:2019:i:1:d:10.1038_s41467-019-11499-w
DOI: 10.1038/s41467-019-11499-w
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