In this thesis quantum-classical dynamics is applied to the study of quantum condensed phase processes. This approach is based on the quantum-classical Liouville equation where the dynamics of a small subset of the degrees of freedom are treated quantum mechanically while the remaining degrees of freedom are treated by classical mechanics to a good approximation. We use this approach as it is computationally tractable, and the resulting equation of motion accurately accounts for the quantum and classical dynamics, as well as the coupling between these two components of the system. By recasting the quantum-classical Liouville equation into the form of a generalized master equation we investigate connections to surface-hopping. The li...
A general method of quantum-to-classical reduction of quantum dynamics is described. The key aspect ...
Exact quantum dynamical simulation of processes in highly coupled condensed phase reactions is extre...
Chemistry is a quantitative science in which rate processes play a major role. Not only they determi...
Quantum rate processes in condensed phase systems are often computed by combining quantum and classi...
Quantum rate processes in condensed phase systems are often computed by combining quantum and classi...
Solving quantum dynamics is an exponentially difficult problem. Thus, an exact numerical solution is...
The study of quantum rate processes occurring in condensed phase environments is difficult because o...
The quantum-classical Liouville equation provides a description of the dynamics of a quantum subsyst...
In mixed quantum-classical molecular dynamics few but important degrees of freedom of a molecular sy...
In this thesis we employ the methods of quantum classical Liouville theory in order to explore the e...
An algorithm is presented for the exact solution of the evolution of the density matrix of a mixed q...
Mixed quantum-classical equations of motion are derived for a quantum subsystem of light (mass m) pa...
This chapter discusses the role of decoherence in mixed quantum–classical approaches to electronical...
Trajectory-based quantum-classical schemes to excited-state dynamics are the most promising approach...
Based on the superposition principle, any two states of a quantum system may be coherently superpose...
A general method of quantum-to-classical reduction of quantum dynamics is described. The key aspect ...
Exact quantum dynamical simulation of processes in highly coupled condensed phase reactions is extre...
Chemistry is a quantitative science in which rate processes play a major role. Not only they determi...
Quantum rate processes in condensed phase systems are often computed by combining quantum and classi...
Quantum rate processes in condensed phase systems are often computed by combining quantum and classi...
Solving quantum dynamics is an exponentially difficult problem. Thus, an exact numerical solution is...
The study of quantum rate processes occurring in condensed phase environments is difficult because o...
The quantum-classical Liouville equation provides a description of the dynamics of a quantum subsyst...
In mixed quantum-classical molecular dynamics few but important degrees of freedom of a molecular sy...
In this thesis we employ the methods of quantum classical Liouville theory in order to explore the e...
An algorithm is presented for the exact solution of the evolution of the density matrix of a mixed q...
Mixed quantum-classical equations of motion are derived for a quantum subsystem of light (mass m) pa...
This chapter discusses the role of decoherence in mixed quantum–classical approaches to electronical...
Trajectory-based quantum-classical schemes to excited-state dynamics are the most promising approach...
Based on the superposition principle, any two states of a quantum system may be coherently superpose...
A general method of quantum-to-classical reduction of quantum dynamics is described. The key aspect ...
Exact quantum dynamical simulation of processes in highly coupled condensed phase reactions is extre...
Chemistry is a quantitative science in which rate processes play a major role. Not only they determi...