Quantum rate processes in condensed phase systems are often computed by combining quantum and classical descriptions of the dynamics. An algorithm for simulating the quantum-classical Liouville equation, which describes the dynamics of a quantum subsystem coupled to a classical bath, is presented in this paper. The algorithm is based on a Trotter decomposition of the quantum-classical propagator, in conjunction with Monte Carlo sampling of quantum transitions, to yield a surface-hopping representation of the dynamics. An expression for the nonadiabatic propagator that is responsible for quantum transitions and associated bath momentum changes is derived in a form that is convenient for Monte Carlo sampling and exactly conserves the total en...
We show that linearization methods, commonly used to approximate the evolution of the density operat...
In mixed quantum-classical molecular dynamics few but important degrees of freedom of a dynamical sy...
Over the past two decades, several algorithms have been developed for calculating observables using ...
Quantum rate processes in condensed phase systems are often computed by combining quantum and classi...
In this thesis quantum-classical dynamics is applied to the study of quantum condensed phase process...
An algorithm for the simulation of quantum-classical dynamics is presented. Quantum-classical evolut...
Solving quantum dynamics is an exponentially difficult problem. Thus, an exact numerical solution is...
The quantum-classical Liouville equation provides a description of the dynamics of a quantum subsyst...
An algorithm is presented for the exact solution of the evolution of the density matrix of a mixed q...
The study of quantum rate processes occurring in condensed phase environments is difficult because o...
In mixed quantum-classical molecular dynamics few but important degrees of freedom of a molecular sy...
grantor: University of TorontoMixed quantum-classical equations of motion are derived for ...
Quantum time correlation functions are often the principal objects of interest in experimental inves...
Mixed quantum-classical equations of motion are derived for a quantum subsystem of light (mass m) pa...
Thesis (Ph.D.)-University of KwaZulu-Natal, Pietermaritzburg, 2013.Simulation of quantum dynamics fo...
We show that linearization methods, commonly used to approximate the evolution of the density operat...
In mixed quantum-classical molecular dynamics few but important degrees of freedom of a dynamical sy...
Over the past two decades, several algorithms have been developed for calculating observables using ...
Quantum rate processes in condensed phase systems are often computed by combining quantum and classi...
In this thesis quantum-classical dynamics is applied to the study of quantum condensed phase process...
An algorithm for the simulation of quantum-classical dynamics is presented. Quantum-classical evolut...
Solving quantum dynamics is an exponentially difficult problem. Thus, an exact numerical solution is...
The quantum-classical Liouville equation provides a description of the dynamics of a quantum subsyst...
An algorithm is presented for the exact solution of the evolution of the density matrix of a mixed q...
The study of quantum rate processes occurring in condensed phase environments is difficult because o...
In mixed quantum-classical molecular dynamics few but important degrees of freedom of a molecular sy...
grantor: University of TorontoMixed quantum-classical equations of motion are derived for ...
Quantum time correlation functions are often the principal objects of interest in experimental inves...
Mixed quantum-classical equations of motion are derived for a quantum subsystem of light (mass m) pa...
Thesis (Ph.D.)-University of KwaZulu-Natal, Pietermaritzburg, 2013.Simulation of quantum dynamics fo...
We show that linearization methods, commonly used to approximate the evolution of the density operat...
In mixed quantum-classical molecular dynamics few but important degrees of freedom of a dynamical sy...
Over the past two decades, several algorithms have been developed for calculating observables using ...