Molecular dynamics investigated by temporally two-dimensional coherent Raman spectroscopy
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Date
1999
Authors
Volume
19
Issue
1-4
Journal
Series Titel
Book Title
Publisher
Routledge : Taylor and Francis Inc.
Link to publishers version
Abstract
A six-wave set-up is described to determine molecular dynamics in the condensed phase. Applying two independent time delays between excitation and probe pulses additional information on the dynamics should be obtainable. We show experimentally that such investigations can be carried out with noisy light having intensity fluctuations in the femtosecond region. As first result we found a fast relaxation time in neat nitrobenzene of 100 fs, becoming even faster in mixtures with low viscosity liquids. Switching on a Raman resonance yields a longer relaxation time, which could be explained by an additional contribution by that vibration.
Description
Keywords
Fifth order nonlinearity, Kerr effect, Nonlinear spectroscopy, Raman
Citation
Lau, A., Pfeiffer, M., Kozich, V., & Kummrow, A. (1999). Molecular dynamics investigated by temporally two-dimensional coherent Raman spectroscopy. 19(1-4). https://doi.org//10.1155/1999/41281
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License
CC BY 3.0 Unported