Accelerated calculation of integrals in the theory of non-thermal electron transfer

Автор: Fedunov Roman Gennadyevich, Yermolenko Igor Petrovich

Журнал: Математическая физика и компьютерное моделирование @mpcm-jvolsu

Рубрика: Физика и астрономия

Статья в выпуске: 3 (46), 2018 года.

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In this article we’ve carried out a modification of the expression for calculating the probability of non-thermal electron transfer in a two-level system obtained in the framework of the nonstationary second-order perturbation theory for electron interaction. This expression takes into account the reorganization of the environment (Debye model) and high-frequency intramolecular vibrational modes (quantum mechanical description). Since the “Debye” part is characterized by slow relaxation times, which significantly exceed the period of intramolecular vibrations, the “quantum” part will be a rapidly oscillating function included in the integral. As a result, computing two-dimensional integral using simple grid methods may require significant computational resources. To speed up the calculation of this integral, we propose a Gauss quadrature formula. It is shown that, in the high-temperature limit, the quadrature formula can be successfully applied in the theory of non-thermal electron transfer and increases the calculation speed of the integral by two orders of magnitude.

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Electron transfer, nonstationary perturbation theory, quadrature formula, intramolecular high-frequency modes

Короткий адрес: https://sciup.org/149129841

IDR: 149129841   |   DOI: 10.15688/mpcm.jvolsu.2018.3.5

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