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Theory of coherent two-dimensional vibrational spectroscopy

Authors
Jansen, Thomas la CourSaito, ShinjiJeon, JongguCho, Minhaeng
Issue Date
14-3월-2019
Publisher
AMER INST PHYSICS
Citation
JOURNAL OF CHEMICAL PHYSICS, v.150, no.10
Indexed
SCIE
SCOPUS
Journal Title
JOURNAL OF CHEMICAL PHYSICS
Volume
150
Number
10
URI
https://scholar.korea.ac.kr/handle/2021.sw.korea/66667
DOI
10.1063/1.5083966
ISSN
0021-9606
Abstract
Two-dimensional (2D) vibrational spectroscopy has emerged as one of the most important experimental techniques useful to study the molecular structure and dynamics in condensed phases. Theory and computation have also played essential and integral roles in its development through the nonlinear optical response theory and computational methods such as molecular dynamics (MD) simulations and electronic structure calculations. In this article, we present the fundamental theory of coherent 2D vibrational spectroscopy and describe computational approaches to simulate the 2D vibrational spectra. The classical approximation to the quantum mechanical nonlinear response function is invoked from the outset. It is shown that the third-order response function can be evaluated in that classical limit by using equilibrium or non-equilibrium MD simulation trajectories. Another simulation method is based on the assumptions that the molecular vibrations can still be described quantum mechanically and that the relevant molecular response functions are evaluated by the numerical integration of the Schrodinger equation. A few application examples are presented to help the researchers in this and related areas to understand the fundamental principles and to use these methods for their studies with 2D vibrational spectroscopic techniques. In summary, this exposition provides an overview of current theoretical efforts to understand the 2D vibrational spectra and an outlook for future developments.
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