Multimode two-dimensional vibronic spectroscopy. II. Simulating and extracting vibronic coupling parameters from polarization-selective spectra

Experimental demonstrations of polarization-selection two-dimensional Vibrational-Electronic (2D VE) and 2D Electronic-Vibrational (2D EV) spectroscopies aim to map the magnitudes and spatial orientations of coupled electronic and vibrational coordinates in complex systems. The realization of that g...

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Veröffentlicht in:	The Journal of chemical physics 2021-05, Vol.154 (18), p.184202-184202
Hauptverfasser:	Weakly, Robert B., Gaynor, James D., Khalil, Munira
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Sprache:	eng
Schlagworte:	Amplitudes Anharmonicity Anisotropy CLASSICAL AND QUANTUM MECHANICS, GENERAL PHYSICS Complex systems Coupled modes Coupling (molecular) Dipoles INORGANIC, ORGANIC, PHYSICAL, AND ANALYTICAL CHEMISTRY Parameters Physics Polarization quantum chemical dynamics Simulation Spectra Spectrum analysis Two dimensional analysis two-dimensional Fourier transform spectroscopy vibrational spectroscopy vibronic spectroscopy vibronic transitions
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creator	Weakly, Robert B. Gaynor, James D. Khalil, Munira
description	Experimental demonstrations of polarization-selection two-dimensional Vibrational-Electronic (2D VE) and 2D Electronic-Vibrational (2D EV) spectroscopies aim to map the magnitudes and spatial orientations of coupled electronic and vibrational coordinates in complex systems. The realization of that goal depends on our ability to connect spectroscopic observables with molecular structural parameters. In this paper, we use a model Hamiltonian consisting of two anharmonically coupled vibrational modes in electronic ground and excited states with linear and bilinear vibronic coupling terms to simulate polarization-selective 2D EV and 2D VE spectra. We discuss the relationships between the linear vibronic coupling and two-dimensional Huang–Rhys parameters and between the bilinear vibronic coupling term and Duschinsky mixing. We develop a description of the vibronic transition dipoles and explore how the Hamiltonian parameters and non-Condon effects impact their amplitudes and orientations. Using simulated polarization-selective 2D EV and 2D VE spectra, we show how 2D peak positions, amplitudes, and anisotropy can be used to measure parameters of the vibronic Hamiltonian and non-Condon effects. This paper, along with the first in the series, provides the reader with a detailed description of reading, simulating, and analyzing multimode, polarization-selective 2D EV and 2D VE spectra with an emphasis on extracting vibronic coupling parameters from complex spectra.
doi_str_mv	10.1063/5.0047727
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In this paper, we use a model Hamiltonian consisting of two anharmonically coupled vibrational modes in electronic ground and excited states with linear and bilinear vibronic coupling terms to simulate polarization-selective 2D EV and 2D VE spectra. We discuss the relationships between the linear vibronic coupling and two-dimensional Huang–Rhys parameters and between the bilinear vibronic coupling term and Duschinsky mixing. We develop a description of the vibronic transition dipoles and explore how the Hamiltonian parameters and non-Condon effects impact their amplitudes and orientations. Using simulated polarization-selective 2D EV and 2D VE spectra, we show how 2D peak positions, amplitudes, and anisotropy can be used to measure parameters of the vibronic Hamiltonian and non-Condon effects. 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subjects	Amplitudes Anharmonicity Anisotropy CLASSICAL AND QUANTUM MECHANICS, GENERAL PHYSICS Complex systems Coupled modes Coupling (molecular) Dipoles INORGANIC, ORGANIC, PHYSICAL, AND ANALYTICAL CHEMISTRY Parameters Physics Polarization quantum chemical dynamics Simulation Spectra Spectrum analysis Two dimensional analysis two-dimensional Fourier transform spectroscopy vibrational spectroscopy vibronic spectroscopy vibronic transitions
title	Multimode two-dimensional vibronic spectroscopy. II. Simulating and extracting vibronic coupling parameters from polarization-selective spectra
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