Solvent effects in the nonlinear optical properties using the Voigt function

Nonlinear optical properties of a two-level molecular system immersed in a thermal bath have been studied in the present work. Solvent effects were explicitly considered by modeling the non-radiative interaction with the solute as a random variable. The innovation of this treatment is that it allows...

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Main Author: Paz Rojas, Jos? Luis
Format: Artículos
Published: 2017
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Online Access:http://repositorio.educacionsuperior.gob.ec/handle/28000/3826
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spelling oai:localhost:28000-38262017-11-01T18:15:33Z Solvent effects in the nonlinear optical properties using the Voigt function Paz Rojas, Jos? Luis PERMANENT DIPOLE MOMENTS ROTATING WAVE APPROXIMATION SOLVENT EFFECTS Nonlinear optical properties of a two-level molecular system immersed in a thermal bath have been studied in the present work. Solvent effects were explicitly considered by modeling the non-radiative interaction with the solute as a random variable. The innovation of this treatment is that it allows us to take into account the environment, inducing quantum effects not considered by classical treatment. The major contribution of the methodology proposed in this work, is the implementation of an approximant to the Voigt function as a probability distribution, because it allow us to cover a wider range of possible interactions among the solvent and the molecular system by simple changing the parameters ?L?L and ?G?G, associated to the variances of the Lorentzian and Gaussian distributions, respectively. http://www.worldscientific.com/doi/abs/10.1142/S0218863516500168 2017-04-12T17:49:42Z 2017-04-12T17:49:42Z 2016 article Paz, Jos? Luis. et al. (2016). Solvent effects in the nonlinear optical properties using the Voigt function. Journal of Nonlinear Optical Physics & Materials. Vol. 25, No. 02. pp.1-14 http://repositorio.educacionsuperior.gob.ec/handle/28000/3826 DOI:10.1142/S0218863516500168 closedAccess http://creativecommons.org/licenses/by-nc-sa/3.0/ec/ pp.1-14.
institution SENESCYT
collection Repositorio SENESCYT
biblioteca Biblioteca Senescyt
format Artículos
topic PERMANENT DIPOLE MOMENTS
ROTATING WAVE APPROXIMATION
SOLVENT EFFECTS
spellingShingle PERMANENT DIPOLE MOMENTS
ROTATING WAVE APPROXIMATION
SOLVENT EFFECTS
Paz Rojas, Jos? Luis
Solvent effects in the nonlinear optical properties using the Voigt function
description Nonlinear optical properties of a two-level molecular system immersed in a thermal bath have been studied in the present work. Solvent effects were explicitly considered by modeling the non-radiative interaction with the solute as a random variable. The innovation of this treatment is that it allows us to take into account the environment, inducing quantum effects not considered by classical treatment. The major contribution of the methodology proposed in this work, is the implementation of an approximant to the Voigt function as a probability distribution, because it allow us to cover a wider range of possible interactions among the solvent and the molecular system by simple changing the parameters ?L?L and ?G?G, associated to the variances of the Lorentzian and Gaussian distributions, respectively.
author Paz Rojas, Jos? Luis
author_facet Paz Rojas, Jos? Luis
author_sort Paz Rojas, Jos? Luis
title Solvent effects in the nonlinear optical properties using the Voigt function
title_short Solvent effects in the nonlinear optical properties using the Voigt function
title_full Solvent effects in the nonlinear optical properties using the Voigt function
title_fullStr Solvent effects in the nonlinear optical properties using the Voigt function
title_full_unstemmed Solvent effects in the nonlinear optical properties using the Voigt function
title_sort solvent effects in the nonlinear optical properties using the voigt function
publishDate 2017
url http://repositorio.educacionsuperior.gob.ec/handle/28000/3826
_version_ 1634995194250133504
score 11,871979