Abstract: Microscopic and macroscopic particle-simulation methods can both be applied to interesting nonequilibrium problems. Here I develop and discuss the ordinary differential equations underlying these two approaches and illustrate them with applications of interest to statistical mechanics and computational fluid mechanics
In the field of molecular simulations, the long standing aim has been to study mechanisms that canno...
Gingold, Lucy, and Monaghan invented a grid-free version of continuum mechanics, "smoothed-part...
Molecular Dynamics is a two-volume compendium of the ever-growing applications of molecular dynamics...
AbstractWe explore the relationship of Monaghan's version of “smoothed-particle hydrodynamics,” here...
Ahstract-We explore the relationship of Monaghan's version of "smoothed-particle hydro dyn...
Steady diffusive, viscous, plastic. and heat-conducting flows have all been successfully simulated u...
Molecular dynamics is a method in which the motion of each individual atom or molecule is computed a...
Nonequilibrium molecular dynamics (NEMD) is introduced. Examples are presented to show how thermodyn...
Macroscopic phenomena can couple together with microscopic events creating complex feedback dynamics...
Smooth particle methods are relatively new methods for simulating solid and fluid flows through they...
We present a novel method for simulating hydrodynamic phenomena. This particle-based method combines...
Abstract.- We present a novel method for simulating hydrodynamic phenomena. This particle-based meth...
In the field of molecular simulations, the long-standing aim has been to study mechanisms that canno...
We discuss dissipative particle dynamics as a thermostat to molecular dynamics, and highlight some o...
During the 1980’s there were many developments regarding the nonequilibrium statistical mechanics of...
In the field of molecular simulations, the long standing aim has been to study mechanisms that canno...
Gingold, Lucy, and Monaghan invented a grid-free version of continuum mechanics, "smoothed-part...
Molecular Dynamics is a two-volume compendium of the ever-growing applications of molecular dynamics...
AbstractWe explore the relationship of Monaghan's version of “smoothed-particle hydrodynamics,” here...
Ahstract-We explore the relationship of Monaghan's version of "smoothed-particle hydro dyn...
Steady diffusive, viscous, plastic. and heat-conducting flows have all been successfully simulated u...
Molecular dynamics is a method in which the motion of each individual atom or molecule is computed a...
Nonequilibrium molecular dynamics (NEMD) is introduced. Examples are presented to show how thermodyn...
Macroscopic phenomena can couple together with microscopic events creating complex feedback dynamics...
Smooth particle methods are relatively new methods for simulating solid and fluid flows through they...
We present a novel method for simulating hydrodynamic phenomena. This particle-based method combines...
Abstract.- We present a novel method for simulating hydrodynamic phenomena. This particle-based meth...
In the field of molecular simulations, the long-standing aim has been to study mechanisms that canno...
We discuss dissipative particle dynamics as a thermostat to molecular dynamics, and highlight some o...
During the 1980’s there were many developments regarding the nonequilibrium statistical mechanics of...
In the field of molecular simulations, the long standing aim has been to study mechanisms that canno...
Gingold, Lucy, and Monaghan invented a grid-free version of continuum mechanics, "smoothed-part...
Molecular Dynamics is a two-volume compendium of the ever-growing applications of molecular dynamics...