Journal ArticleDOI
Molecular dynamics with electronic transitions
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In this article, a method for carrying out molecular dynamics simulations of processes that involve electronic transitions is proposed, where the time dependent electronic Schrodinger equation is solved self-consistently with the classical mechanical equations of motion of the atoms.Abstract:
A method is proposed for carrying out molecular dynamics simulations of processes that involve electronic transitions. The time dependent electronic Schrodinger equation is solved self‐consistently with the classical mechanical equations of motion of the atoms. At each integration time step a decision is made whether to switch electronic states, according to probabilistic ‘‘fewest switches’’ algorithm. If a switch occurs, the component of velocity in the direction of the nonadiabatic coupling vector is adjusted to conserve energy. The procedure allows electronic transitions to occur anywhere among any number of coupled states, governed by the quantum mechanical probabilities. The method is tested against accurate quantal calculations for three one‐dimensional, two‐state models, two of which have been specifically designed to challenge any such mixed classical–quantal dynamical theory. Although there are some discrepancies, initial indications are encouraging. The model should be applicable to a wide variety of gas‐phase and condensed‐phase phenomena occurring even down to thermal energies.read more
Citations
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Mixed quantum-classical molecular dynamics: Aspects of the multithreads algorithm
Chun-Cheng Wan,Jeremy Schofield +1 more
TL;DR: In this paper, the mixed quantum-classical Liouville equation is derived from a semiclassical perspective starting from the full quantum Schrodinger equation, and an asymptotic numerical scheme for solving the equation is discussed which relies on propagating swarms of interacting "threads" which represent the density matrix or other observable.
Journal ArticleDOI
Model studies of nonadiabatic dynamics
TL;DR: In this paper, mixed quantum-classical methods are applied to an increasingly challenging series of model problems, and their accuracy is examined, and the model calculations reported here suggest that, in cases where linear couplings dominate, the mean field mixed quantumclassical method displays useful accuracy and is robust to the introduction of anharmonic heavy-particle interactions.
Journal ArticleDOI
Nonadiabatic molecular dynamics simulations of the photofragmentation and geminate recombination dynamics in size-selected I2−⋅Arn cluster ions
V. S. Batista,David F. Coker +1 more
TL;DR: In this article, the photodissociation, geminate recombination and relaxation dynamics in size-selected I2−⋅Arn cluster ions using a coupled quantum-classical molecular dynamics method and a model Hamiltonian gained from diatomics-in-ionic systems were investigated.
Journal ArticleDOI
Benzophenone Ultrafast Triplet Population: Revisiting the Kinetic Model by Surface-Hopping Dynamics.
Marco Marazzi,Marco Marazzi,Sebastian Mai,Daniel Roca-Sanjuán,Mickaël G. Delcey,Roland Lindh,Leticia González,Antonio Monari,Antonio Monari +8 more
TL;DR: The photochemistry of benzophenone, a paradigmatic organic molecule for photosensitization, was investigated by means of surface-hopping ab initio molecular dynamics and established the existence of a kinetic equilibrium between the two triplet states, never observed before.
Journal ArticleDOI
Dissipative mixed quantum-classical simulation of the aqueous solvated electron system
Kim F. Wong,Peter J. Rossky +1 more
TL;DR: In this article, a direct integration of quantum decoherence into the mixed quantum-classical (MQC) molecular dynamics method mean field with surface hopping (MF/SH) is explored from the context of the aqueous solvated electron system.
References
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Journal ArticleDOI
Trajectory Surface Hopping Approach to Nonadiabatic Molecular Collisions: The Reaction of H+ with D2
John C. Tully,Richard K. Preston +1 more
TL;DR: In this article, an extension of the classical trajectory approach is proposed that may be useful in treating many types of nonadiabatic molecular collisions, where nuclei are assumed to move classically on a single potential energy surface until an avoided surface crossing or other region of large NDE coupling is reached.
Journal ArticleDOI
A fourier method solution for the time dependent Schrödinger equation as a tool in molecular dynamics
Dan Kosloff,Ronnie Kosloff +1 more
TL;DR: In this paper, a new method is presented for the solution of the time dependent SchrBdinger equation in its application to physical and chemical molecular phenomena, which is based on discretizing space and time on a grid, and using the Fourier method to produce both spatial derivatives, and second order differencing for time derivatives.
Book
Mathematical methods for digital computers
TL;DR: This is the book that many people in the world waiting for to publish, mathematical methods for digital computers, and the book lovers are really curious to see how this book is actually.
BookDOI
Dynamics of Molecular Collisions
TL;DR: In this paper, the potential energy surfaces and their effect on collision processes are discussed. But the authors focus on the nonadiabatic processes in collision theory and not on the classical trajectories of trajectories.
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