We propose a thermodynamically consistent and energy conserving coupling scheme between the atomistic and the continuum domain. The coupling scheme links the two domains using the DPDE (Dissipative Particle Dynamics at constant Energy) thermostat and is designed to handle strong temperature gradients across the atomistic/continuum domain interface. The fundamentally different definitions of temperature in the continuum and atomistic domain - internal energy and heat capacity versus particle velocity - are accounted for in a straightforward and conceptually intuitive way by the DPDE thermostat. We verify the here proposed scheme using a fluid, which is simultaneously represented as a continuum using Smooth Particle Hydrodynamics, and as an a...
A thermostat of the Nose-Hoover type, based on relative velocities and a local definition of the tem...
This thesis studies mesoscopic models adapted to the simulation of shock and detonation waves in flu...
This thesis studies mesoscopic models adapted to the simulation of shock and detonation waves in flu...
We propose a thermodynamically consistent and energy conserving coupling scheme between the atomisti...
We propose a thermodynamically consistent and energy-conserving temperature coupling scheme between ...
Simulations of nano- to micro-meter scale fluidic systems under thermal gradients require consistent...
We discuss dissipative particle dynamics as a thermostat to molecular dynamics, and highlight some o...
In molecular simulation and fluid mechanics, the coupling of a particle domain with a continuum repr...
We present a Markov process which models particle hydrodynamics with conservation of the first three...
AbstractWe review and compare numerical methods that simultaneously control temperature while preser...
Dissipative particle dynamics (DPD) is a mesoscopic simulation method for studying hydrodynamic beha...
We present a novel method to couple molecular dynamics with finite elements at finite temperatures u...
The algorithm for the dissipative particle dynamics (DPD) fluid, the dynamics of which is conceptual...
AbstractWe examine the formulation and numerical treatment of dissipative particle dynamics (DPD) an...
The thermostat-consistent fully coupled molecular dynamics–generalized fluctuating hydrodynamics met...
A thermostat of the Nose-Hoover type, based on relative velocities and a local definition of the tem...
This thesis studies mesoscopic models adapted to the simulation of shock and detonation waves in flu...
This thesis studies mesoscopic models adapted to the simulation of shock and detonation waves in flu...
We propose a thermodynamically consistent and energy conserving coupling scheme between the atomisti...
We propose a thermodynamically consistent and energy-conserving temperature coupling scheme between ...
Simulations of nano- to micro-meter scale fluidic systems under thermal gradients require consistent...
We discuss dissipative particle dynamics as a thermostat to molecular dynamics, and highlight some o...
In molecular simulation and fluid mechanics, the coupling of a particle domain with a continuum repr...
We present a Markov process which models particle hydrodynamics with conservation of the first three...
AbstractWe review and compare numerical methods that simultaneously control temperature while preser...
Dissipative particle dynamics (DPD) is a mesoscopic simulation method for studying hydrodynamic beha...
We present a novel method to couple molecular dynamics with finite elements at finite temperatures u...
The algorithm for the dissipative particle dynamics (DPD) fluid, the dynamics of which is conceptual...
AbstractWe examine the formulation and numerical treatment of dissipative particle dynamics (DPD) an...
The thermostat-consistent fully coupled molecular dynamics–generalized fluctuating hydrodynamics met...
A thermostat of the Nose-Hoover type, based on relative velocities and a local definition of the tem...
This thesis studies mesoscopic models adapted to the simulation of shock and detonation waves in flu...
This thesis studies mesoscopic models adapted to the simulation of shock and detonation waves in flu...