Taming the third order cumulant approximation to linear optical spectroscopy.
Autor: | Allan L; Department of Chemistry, Oregon State University, Corvallis, Oregon 97331, USA., Zuehlsdorff TJ; Department of Chemistry, Oregon State University, Corvallis, Oregon 97331, USA. |
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Jazyk: | angličtina |
Zdroj: | The Journal of chemical physics [J Chem Phys] 2024 Feb 21; Vol. 160 (7). |
DOI: | 10.1063/5.0182745 |
Abstrakt: | The second order cumulant method offers a promising pathway to predicting optical properties in condensed phase systems. It allows for the computation of linear absorption spectra from excitation energy fluctuations sampled along molecular dynamics (MD) trajectories, fully accounting for vibronic effects, direct solute-solvent interactions, and environmental polarization effects. However, the second order cumulant approximation only guarantees accurate line shapes for energy gap fluctuations obeying Gaussian statistics. A third order correction has recently been derived but often yields unphysical spectra or divergent line shapes for moderately non-Gaussian fluctuations due to the neglect of higher order terms in the cumulant expansion. In this work, we develop a corrected cumulant approach, where the collective effect of neglected higher order contributions is approximately accounted for through a dampening factor applied to the third order cumulant term. We show that this dampening factor can be expressed as a function of the skewness and kurtosis of energy gap fluctuations and can be parameterized from a large set of randomly sampled model Hamiltonians for which exact spectral line shapes are known. This approach is shown to systematically remove unphysical contributions in the form of negative absorbances from cumulant spectra in both model Hamiltonians and condensed phase systems sampled from MD and dramatically improves over the second order cumulant method in describing systems exhibiting Duschinsky mode mixing effects. We successfully apply the approach to the coumarin-153 dye in toluene, obtaining excellent agreement with experiment. (© 2024 Author(s). Published under an exclusive license by AIP Publishing.) |
Databáze: | MEDLINE |
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