Solvent randomness and intramolecular considerations of optical responses in four-wave mixing

J. L. Paz; Patricio Espinoza-Montero; Marcos Loroño; Lenin A. González-Paz; Edgar Marquez; Joan Vera-Villalobos; José R. Mora; Ysaias J. Alvarado

doi:10.1080/09500340.2021.1976856

Solvent randomness and intramolecular considerations of optical responses in four-wave mixing

J. L. Paz^*, Patricio Espinoza-Montero, Marcos Loroño, Lenin A. González-Paz, Edgar Marquez, Joan Vera-Villalobos, José R. Mora, Ysaias J. Alvarado

^*Corresponding author for this work

Faculty of Exact and Natural Sciences

Research output: Contribution to journal › Article › peer-review

2 Scopus citations

Abstract

We determined the optical profiles of a molecular system coupled with a thermal bath in presence of intramolecular coupling. Solvent effects were explicitly considered as a random variable by modelling the non-radiative interaction with the solute. Optical susceptibilities of stochastic origin were solved through cumulant expansions in Gaussian distributions considering a white noise as a correlation function. We examined the behaviour of these properties for the solvent noise parameter and intramolecular coupling parameters. Our results show that the intensity of the nonlinear optical properties decreases with the insertion of either of the two effects considered. Finally, other considerations related to the determination of relaxation times from the symmetry properties of the optical responses in frequency space are presented.

Original language	English
Pages (from-to)	1083-1093
Number of pages	11
Journal	Journal of Modern Optics
Volume	68
Issue number	20
DOIs	https://doi.org/10.1080/09500340.2021.1976856
State	Published - 18 Sep 2021

Bibliographical note

Publisher Copyright:
© 2021 Informa UK Limited, trading as Taylor & Francis Group.

Keywords

Cumulant expansions
intramolecular
optical responses
vibronic

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10.1080/09500340.2021.1976856

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abstract = "We determined the optical profiles of a molecular system coupled with a thermal bath in presence of intramolecular coupling. Solvent effects were explicitly considered as a random variable by modelling the non-radiative interaction with the solute. Optical susceptibilities of stochastic origin were solved through cumulant expansions in Gaussian distributions considering a white noise as a correlation function. We examined the behaviour of these properties for the solvent noise parameter and intramolecular coupling parameters. Our results show that the intensity of the nonlinear optical properties decreases with the insertion of either of the two effects considered. Finally, other considerations related to the determination of relaxation times from the symmetry properties of the optical responses in frequency space are presented.",

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AU - Paz, J. L.

AU - Espinoza-Montero, Patricio

AU - Loroño, Marcos

AU - González-Paz, Lenin A.

AU - Marquez, Edgar

AU - Vera-Villalobos, Joan

AU - Mora, José R.

AU - Alvarado, Ysaias J.

PY - 2021/9/18

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N2 - We determined the optical profiles of a molecular system coupled with a thermal bath in presence of intramolecular coupling. Solvent effects were explicitly considered as a random variable by modelling the non-radiative interaction with the solute. Optical susceptibilities of stochastic origin were solved through cumulant expansions in Gaussian distributions considering a white noise as a correlation function. We examined the behaviour of these properties for the solvent noise parameter and intramolecular coupling parameters. Our results show that the intensity of the nonlinear optical properties decreases with the insertion of either of the two effects considered. Finally, other considerations related to the determination of relaxation times from the symmetry properties of the optical responses in frequency space are presented.

AB - We determined the optical profiles of a molecular system coupled with a thermal bath in presence of intramolecular coupling. Solvent effects were explicitly considered as a random variable by modelling the non-radiative interaction with the solute. Optical susceptibilities of stochastic origin were solved through cumulant expansions in Gaussian distributions considering a white noise as a correlation function. We examined the behaviour of these properties for the solvent noise parameter and intramolecular coupling parameters. Our results show that the intensity of the nonlinear optical properties decreases with the insertion of either of the two effects considered. Finally, other considerations related to the determination of relaxation times from the symmetry properties of the optical responses in frequency space are presented.

KW - Cumulant expansions

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KW - vibronic

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Solvent randomness and intramolecular considerations of optical responses in four-wave mixing

Abstract

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Keywords

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