Add to ORKGRing polymer molecular dynamics (RPMD) is used to directly simulate the dynamics of an excess electron in a supercritical fluid over a broad range of densities. The accuracy of the RPMD model is tested against numerically exact path integral statistics through the use of analytical continuation techniques. At low fluid densities, the RPMD model substantially underestimates the contribution of delocalized states to the dynamics of the excess electron. However, with increasing solvent density, the RPMD model improves, nearly satisfying analytical continuation constraints at densities approaching those of typical liquids. In the high-density regime, quantum dispersion substantially decreases the self-diffusion of the solvated electron. In this...
A mechanism involving diffusion-controlled electron transfer processes in Debye and non-Debye dielec...
Following the technological advances of the Industrial Revolution, classical thermodynamics was deve...
The numerical advantage of quantum Monte Carlo simulations of rigid bodies relative to the flexible ...
Ring polymer molecular dynamics (RPMD) is used to directly simulate the injection and relaxation of ...
Ring polymer molecular dynamics (RPMD) is used to directly simulate the dynamics of an excess electr...
Abstract. Stochastic Langevin molecular dynamics for nuclei is derived from the Ehrenfest Hamiltonia...
Understanding the mechanisms and timescales of charge and energy transfer processes in large, comple...
The use of ring polymer molecular dynamics (RPMD) for the direct simulation of electron transfer (ET...
We extend ring-polymer molecular dynamics (RPMD) to allow for the direct simulation of general, elec...
Current combustion models have been developed and validated with low-pressure experimental data, and...
The first part of the manuscript is concerned with various works in molecular simulation. We conside...
Molecular dynamics (MD) is a powerful tool to study properties of complex systems. However, it treat...
We use quantized molecular dynamics simulations to investigate the competition between concerted and...
The combination of quantum fluid dynamics and density functional theory had led to the formulation o...
Condensed matter systems, ranging from simple fluids and solids to complex multicomponent materials ...
A mechanism involving diffusion-controlled electron transfer processes in Debye and non-Debye dielec...
Following the technological advances of the Industrial Revolution, classical thermodynamics was deve...
The numerical advantage of quantum Monte Carlo simulations of rigid bodies relative to the flexible ...
Ring polymer molecular dynamics (RPMD) is used to directly simulate the injection and relaxation of ...
Ring polymer molecular dynamics (RPMD) is used to directly simulate the dynamics of an excess electr...
Abstract. Stochastic Langevin molecular dynamics for nuclei is derived from the Ehrenfest Hamiltonia...
Understanding the mechanisms and timescales of charge and energy transfer processes in large, comple...
The use of ring polymer molecular dynamics (RPMD) for the direct simulation of electron transfer (ET...
We extend ring-polymer molecular dynamics (RPMD) to allow for the direct simulation of general, elec...
Current combustion models have been developed and validated with low-pressure experimental data, and...
The first part of the manuscript is concerned with various works in molecular simulation. We conside...
Molecular dynamics (MD) is a powerful tool to study properties of complex systems. However, it treat...
We use quantized molecular dynamics simulations to investigate the competition between concerted and...
The combination of quantum fluid dynamics and density functional theory had led to the formulation o...
Condensed matter systems, ranging from simple fluids and solids to complex multicomponent materials ...
A mechanism involving diffusion-controlled electron transfer processes in Debye and non-Debye dielec...
Following the technological advances of the Industrial Revolution, classical thermodynamics was deve...
The numerical advantage of quantum Monte Carlo simulations of rigid bodies relative to the flexible ...