Gingold, Lucy, and Monaghan invented a grid-free version of continuum mechanics, "smoothed-particle hydrodynamics", in 1977. It is a likely contributor to "hybrid " simulations combining atomistic and continuum simulations. We describe applications of this particle-based continuum technique from the closely-related standpoint of nonequilibrium molecular dynamiCS. We compare chaotic L~punov spectra for atomistic solids and fluids with those which characteriZe a two-dimensional smoothed-particle fluid system. 1
A challenge of today‖s research is the realistic simulation of disordered atomistic systems or parti...
Computational methods for the calculation of dynamical properties of fluids might consider the syste...
As a hypersonic vehicle travels through the atmosphere, it crosses many flow regimes, from rarefied ...
Ahstract-We explore the relationship of Monaghan's version of "smoothed-particle hydro dyn...
AbstractWe explore the relationship of Monaghan's version of “smoothed-particle hydrodynamics,” here...
Steady diffusive, viscous, plastic. and heat-conducting flows have all been successfully simulated u...
Abstract: Microscopic and macroscopic particle-simulation methods can both be applied to interesting...
Nonequilibrium phenomena are ubiquitous in nature as well as industrial applications. However, their...
A previously developed hybrid particle-continuum method [J. B. Bell, A. Garcia, and S. A. Williams, ...
The research groups of the John von Neumann Institute for Computing (NIC) regularly conduct workshop...
Smooth particle methods are relatively new methods for simulating solid and fluid flows through they...
Nonequilibrium phenomena are ubiquitous in nature as well as industrial applications. However, their...
AbstractA new, numerical approach is developed for modelling fluid phenomena. Unlike the continuum a...
Macroscopic phenomena can couple together with microscopic events creating complex feedback dynamics...
Abstract.- We present a novel method for simulating hydrodynamic phenomena. This particle-based meth...
A challenge of today‖s research is the realistic simulation of disordered atomistic systems or parti...
Computational methods for the calculation of dynamical properties of fluids might consider the syste...
As a hypersonic vehicle travels through the atmosphere, it crosses many flow regimes, from rarefied ...
Ahstract-We explore the relationship of Monaghan's version of "smoothed-particle hydro dyn...
AbstractWe explore the relationship of Monaghan's version of “smoothed-particle hydrodynamics,” here...
Steady diffusive, viscous, plastic. and heat-conducting flows have all been successfully simulated u...
Abstract: Microscopic and macroscopic particle-simulation methods can both be applied to interesting...
Nonequilibrium phenomena are ubiquitous in nature as well as industrial applications. However, their...
A previously developed hybrid particle-continuum method [J. B. Bell, A. Garcia, and S. A. Williams, ...
The research groups of the John von Neumann Institute for Computing (NIC) regularly conduct workshop...
Smooth particle methods are relatively new methods for simulating solid and fluid flows through they...
Nonequilibrium phenomena are ubiquitous in nature as well as industrial applications. However, their...
AbstractA new, numerical approach is developed for modelling fluid phenomena. Unlike the continuum a...
Macroscopic phenomena can couple together with microscopic events creating complex feedback dynamics...
Abstract.- We present a novel method for simulating hydrodynamic phenomena. This particle-based meth...
A challenge of today‖s research is the realistic simulation of disordered atomistic systems or parti...
Computational methods for the calculation of dynamical properties of fluids might consider the syste...
As a hypersonic vehicle travels through the atmosphere, it crosses many flow regimes, from rarefied ...