Numerical simulation of multistage bimolecular photoreactions in liquids: algorithms and software
Автор: Feskov Sergey V.
Журнал: Математическая физика и компьютерное моделирование @mpcm-jvolsu
Рубрика: Физика и астрономия
Статья в выпуске: 1 т.24, 2021 года.
Бесплатный доступ
The paper considers tools for numerical simulation of multistage bimolecular photoreactions assisted by diffusive mobility of reactant molecules in viscous solutions. To describe these processes, the differential encounter theory (DET) is extended to account for the coherent dynamics of certain degrees of freedom (for example, electronic spins of reactants and intermediates). The model involves diffusion of reactants in solution and multistage / multichannel physicochemical processes proceeding both at the level of individual molecules and encounter complexes. Algorithms for numerical solution of model equations are proposed, which are related to the evaluation of evolution operators. An algorithm for computing the quantum propagator for the density matrix based on the Trotter splitting is presented. A software package for simulation of multistage photoreactions has been developed using the suggested numerical approaches. The author presents a structure of key software components and examples of the program model construction. A software testing has been carried out, showing good correspondence between the numerical results and exact solutions of the model equations in certain particular cases. As an example, a photoreaction with participation of 9.10-dimethylanthracene and 1.3-dicyanobenzene in the acetonitrile solution has been considered, and basic procedures for configuring and simulating multistage bimolecular photoprocesses are shown. The importance of coherent description of the electronic spin evolution at the radical stage is shown.
Computational chemistry, numerical methods, simulation software, trotter splitting, bimolecular reactions, photochemistry, coherent dynamics
Короткий адрес: https://sciup.org/149138018
IDR: 149138018 | DOI: 10.15688/mpcm.jvolsu.2021.1.4