Determining Orientations of Optical Transition Dipole Moments Using Ultrafast X‑ray Scattering

Identification of the initially prepared, optically active state remains a challenging problem in many studies of ultrafast photoinduced processes. We show that the initially excited electronic state can be determined using the anisotropic component of ultrafast time-resolved X-ray scattering signal...

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Bibliographic Details
Published in:The journal of physical chemistry letters 2018-11, Vol.9 (22), p.6556-6562
Main Authors: Yong, Haiwang, Zotev, Nikola, Stankus, Brian, Ruddock, Jennifer M., Bellshaw, Darren, Boutet, Sébastien, Lane, Thomas J., Liang, Mengning, Carbajo, Sergio, Robinson, Joseph S., Du, Wenpeng, Goff, Nathan, Chang, Yu, Koglin, Jason E., Waters, Max D. J., Sølling, Theis I., Minitti, Michael P., Kirrander, Adam, Weber, Peter M.
Format: Article
Language:English
Subjects:
INORGANIC, ORGANIC, PHYSICAL, AND ANALYTICAL CHEMISTRY
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Summary:Identification of the initially prepared, optically active state remains a challenging problem in many studies of ultrafast photoinduced processes. We show that the initially excited electronic state can be determined using the anisotropic component of ultrafast time-resolved X-ray scattering signals. The concept is demonstrated using the time-dependent X-ray scattering of N-methyl morpholine in the gas phase upon excitation by a 200 nm linearly polarized optical pulse. Analysis of the angular dependence of the scattering signal near time zero renders the orientation of the transition dipole moment in the molecular frame and identifies the initially excited state as the 3p z Rydberg state, thus bypassing the need for further experimental studies to determine the starting point of the photoinduced dynamics and clarifying inconsistent computational results.
ISSN:1948-7185
1948-7185
DOI:10.1021/acs.jpclett.8b02773