Diffusion studies of adsorbates moving on a surface are often analyzed using 2D Langevin simulations. These simulations are computationally cheap and offer valuable insight into the dynamics, however, they simplify the complex interactions between the substrate and adsorbate atoms, neglecting correlations in the motion of the two species. The effect of this simplification on the accuracy of observables extracted using Langevin simulations was previously unquantified. Here we report a numerical study aimed at assessing the validity of this approach. We compared experimentally accessible observables which were calculated using a Langevin simulation with those obtained from explicit molecular dynamics simulations. Our results show that within ...
We present a numerical study of classical particles diffusing on a solid surface. The particles moti...
The jump distribution, a property of the motion of adsorbates on a corrugated surface, contains cruc...
By molecular dynamics simulations, we describe and discuss the mobility of single molecules on a met...
An analysis is presented of the magnitude of some of the potential sources of error in a recently de...
165 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 1980.Several different topics, all...
We investigate the dynamic properties of Brownian interacting particles ...
An elementary process occurring on surfaces is diffusion. The dynamics is simplest when the concentr...
A simple model for a dimer molecular diffusion on a crystalline surface, as a function of temperatur...
Langevin simulations provide an effective way to study collective effects of Brownian particles imme...
Langevin simulations provide an effective way to study collective effects of Brownian particles imme...
We present a package using Simulink and MATLAB to perform molecular dynamics simulations of interact...
In this work, we investigate the inertia and stoichiometric effect on surface diffusion of adsorbate...
We present a numerical study of classical particles diffusing on a solid surface. The particles’ mot...
Contains fulltext : 32530.pdf (publisher's version ) (Open Access)A theoretical st...
Computer simulations of a polymer chain of length N strongly adsorbed at the solid-liquid interface ...
We present a numerical study of classical particles diffusing on a solid surface. The particles moti...
The jump distribution, a property of the motion of adsorbates on a corrugated surface, contains cruc...
By molecular dynamics simulations, we describe and discuss the mobility of single molecules on a met...
An analysis is presented of the magnitude of some of the potential sources of error in a recently de...
165 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 1980.Several different topics, all...
We investigate the dynamic properties of Brownian interacting particles ...
An elementary process occurring on surfaces is diffusion. The dynamics is simplest when the concentr...
A simple model for a dimer molecular diffusion on a crystalline surface, as a function of temperatur...
Langevin simulations provide an effective way to study collective effects of Brownian particles imme...
Langevin simulations provide an effective way to study collective effects of Brownian particles imme...
We present a package using Simulink and MATLAB to perform molecular dynamics simulations of interact...
In this work, we investigate the inertia and stoichiometric effect on surface diffusion of adsorbate...
We present a numerical study of classical particles diffusing on a solid surface. The particles’ mot...
Contains fulltext : 32530.pdf (publisher's version ) (Open Access)A theoretical st...
Computer simulations of a polymer chain of length N strongly adsorbed at the solid-liquid interface ...
We present a numerical study of classical particles diffusing on a solid surface. The particles moti...
The jump distribution, a property of the motion of adsorbates on a corrugated surface, contains cruc...
By molecular dynamics simulations, we describe and discuss the mobility of single molecules on a met...