Nonadiabatic Field: A Conceptually Novel Approach for Nonadiabatic Quantum Molecular Dynamics DOI Creative Commons
Baihua Wu, Bingqi Li, Xin He

и другие.

Journal of Chemical Theory and Computation, Год журнала: 2025, Номер unknown

Опубликована: Апрель 7, 2025

Reliable trajectory-based nonadiabatic quantum dynamics methods at the atomic/molecular level are critical for practical understanding and rational design of many important processes in real large/complex systems, where dynamical behavior electrons that nuclei coupled. The paper reports latest progress field (NaF), a conceptually novel approach with independent trajectories. Substantially different from mainstreams Ehrenfest-like surface hopping methods, nuclear force NaF involves arising coupling between electronic states, addition to adiabatic contributed by single state. is capable faithfully describing interplay motion broad regime, which covers relevant states keep coupled wide range or all time bifurcation characteristic essential. derived exact generalized phase space formulation coordinate-momentum variables, constraint (CPS) employed discrete electronic-state degrees freedom (DOFs) infinite Wigner used continuous DOFs. We propose efficient integrators equations both diabatic representations. Since formalism CPS not unique, can principle be implemented various representations correlation function (TCF) time-dependent property. They applied suite representative gas-phase condensed-phase benchmark models numerically results available comparison. It shown relatively insensitive representation TCF will potential tool reliable simulations mechanical transition systems.

Язык: Английский

Nonadiabatic Field: A Conceptually Novel Approach for Nonadiabatic Quantum Molecular Dynamics DOI Creative Commons
Baihua Wu, Bingqi Li, Xin He

и другие.

Journal of Chemical Theory and Computation, Год журнала: 2025, Номер unknown

Опубликована: Апрель 7, 2025

Reliable trajectory-based nonadiabatic quantum dynamics methods at the atomic/molecular level are critical for practical understanding and rational design of many important processes in real large/complex systems, where dynamical behavior electrons that nuclei coupled. The paper reports latest progress field (NaF), a conceptually novel approach with independent trajectories. Substantially different from mainstreams Ehrenfest-like surface hopping methods, nuclear force NaF involves arising coupling between electronic states, addition to adiabatic contributed by single state. is capable faithfully describing interplay motion broad regime, which covers relevant states keep coupled wide range or all time bifurcation characteristic essential. derived exact generalized phase space formulation coordinate-momentum variables, constraint (CPS) employed discrete electronic-state degrees freedom (DOFs) infinite Wigner used continuous DOFs. We propose efficient integrators equations both diabatic representations. Since formalism CPS not unique, can principle be implemented various representations correlation function (TCF) time-dependent property. They applied suite representative gas-phase condensed-phase benchmark models numerically results available comparison. It shown relatively insensitive representation TCF will potential tool reliable simulations mechanical transition systems.

Язык: Английский

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