The propagation of quantum/classical molecular dynamics equations is investigated from two different points of view. One is to take into account the time-dependence of effective Hamiltonians of quantum and classical subsystems by the combination of Zhu and Zhao's time-independentlike split operator method [J. Chem. Phys. 105, 9536 (1996)] and a predictor-corrector technique. The other one is to introduce a time-independent quasi-Hamiltonian operator for the total system based on which new split-operator propagators are constructed. High-order quantum wave-packet propagators and the multiple time scale technique can be easily employed in our algorithms. Four new quantum/classical propagators are proposed and tested in a simple model sys...
The overall Hamiltonian structure of the Quantum-Classical Molecular Dynamics model makes – analogou...
Mixed quantum--classical models have attracted considerable interest due to the expectation that the...
Classical algorithms that simulate the electronic and vibrational structure of atoms and molecules a...
A numerical method was proposed to propagate the quantum system with a time-dependent Hamiltonian. T...
An algorithm for the simulation of quantum-classical dynamics is presented. Quantum-classical evolut...
Abstract: Molecular simulations have become a powerful tool in investigating the micro-scopic behavi...
The time-dependent Schrödinger equation models the quantum nature of molecular processes. Numerical ...
. We study time integration methods for equations of mixed quantum-classical molecular dynamics in ...
We consider computational methods for simulating the dynamics of molecular systems governed by the t...
The time-dependent Schrödinger equation (TDSE) models the quantum nature of molecular processes. Nu...
We propose and develop a general method of numerical calculation of the wave function time evolution...
The interpretation of photo-induced processes relies nowadays strongly on numerical simulations. An ...
The overall Hamiltonian structure of the Quantum-Classical Molecular Dynamics model makes -- analogo...
A path integral simulation algorithm which includes a higher-order Trotter approximation (HOA)is ana...
The existence of multiple time scales in molecular dynamics poses interesting and challenging questi...
The overall Hamiltonian structure of the Quantum-Classical Molecular Dynamics model makes – analogou...
Mixed quantum--classical models have attracted considerable interest due to the expectation that the...
Classical algorithms that simulate the electronic and vibrational structure of atoms and molecules a...
A numerical method was proposed to propagate the quantum system with a time-dependent Hamiltonian. T...
An algorithm for the simulation of quantum-classical dynamics is presented. Quantum-classical evolut...
Abstract: Molecular simulations have become a powerful tool in investigating the micro-scopic behavi...
The time-dependent Schrödinger equation models the quantum nature of molecular processes. Numerical ...
. We study time integration methods for equations of mixed quantum-classical molecular dynamics in ...
We consider computational methods for simulating the dynamics of molecular systems governed by the t...
The time-dependent Schrödinger equation (TDSE) models the quantum nature of molecular processes. Nu...
We propose and develop a general method of numerical calculation of the wave function time evolution...
The interpretation of photo-induced processes relies nowadays strongly on numerical simulations. An ...
The overall Hamiltonian structure of the Quantum-Classical Molecular Dynamics model makes -- analogo...
A path integral simulation algorithm which includes a higher-order Trotter approximation (HOA)is ana...
The existence of multiple time scales in molecular dynamics poses interesting and challenging questi...
The overall Hamiltonian structure of the Quantum-Classical Molecular Dynamics model makes – analogou...
Mixed quantum--classical models have attracted considerable interest due to the expectation that the...
Classical algorithms that simulate the electronic and vibrational structure of atoms and molecules a...