In this paper a transport equation (TE) is derived that matches closely (within the limitation of an infinite target) the transport model in the Monte Carlo code TRIM. Initially, the authors derive a TE that incorporates an arbitrary free-flight path length distribution function and a stopping energy. From this TE a coupled set of integral equations (for spatial moments up to order four) incorporating the liquid free-flight path model used in TRIM is derived. Also, for the gas-like model of the free-flight path length distribution, the equivalence is shown between the new TE and the LSS backward linearized Boltzmann equation extended by Brice to include an intermediate energy
A two-dimensional, two fluid model of the MHD equations has been coupled to a Monte Carlo transport ...
AbstractLinear kinetic Monte Carlo particle transport models are frequently employed in fusion plasm...
International audienceThis paper presents an approach to simulate the free molecular flow in vacuum ...
In this paper a transport equation (TE) is derived that matches closely (within the limitation of an...
Commencing with the LSS integro-differential equation, an approximate transport equation is derived ...
A null collision Monte Carlo method is proposed to calculate the transport kinetics of charged parti...
A new Condensed History algorithm is introduced to enhance the Monte Carlo simulation of electron tr...
A new method for the derivation of Hydrodynamic Equations has been developed. This new approach is m...
Two methods are described for improving the results of a Monte Carlo technique used to simulate the ...
A new Monte Carlo Boltzmann (MCB) equation is proposed to describe the behavior of nonanalog Monte C...
SIGLEAvailable from British Library Document Supply Centre- DSC:4672.262(JET-P--87/61) / BLDSC - Bri...
Condensed history algorithms are approximate electron transport Monte Carlo methods in which the cum...
The Boltzmann transport equation (BTE) is the governing equation for nonequilibrium particle transp...
Ion energy straggling is accomodated in condensed history (CH) Monte Carlo simulation by sampling en...
In this paper, a new analytical model for the description of lateral spread of implanted ions is com...
A two-dimensional, two fluid model of the MHD equations has been coupled to a Monte Carlo transport ...
AbstractLinear kinetic Monte Carlo particle transport models are frequently employed in fusion plasm...
International audienceThis paper presents an approach to simulate the free molecular flow in vacuum ...
In this paper a transport equation (TE) is derived that matches closely (within the limitation of an...
Commencing with the LSS integro-differential equation, an approximate transport equation is derived ...
A null collision Monte Carlo method is proposed to calculate the transport kinetics of charged parti...
A new Condensed History algorithm is introduced to enhance the Monte Carlo simulation of electron tr...
A new method for the derivation of Hydrodynamic Equations has been developed. This new approach is m...
Two methods are described for improving the results of a Monte Carlo technique used to simulate the ...
A new Monte Carlo Boltzmann (MCB) equation is proposed to describe the behavior of nonanalog Monte C...
SIGLEAvailable from British Library Document Supply Centre- DSC:4672.262(JET-P--87/61) / BLDSC - Bri...
Condensed history algorithms are approximate electron transport Monte Carlo methods in which the cum...
The Boltzmann transport equation (BTE) is the governing equation for nonequilibrium particle transp...
Ion energy straggling is accomodated in condensed history (CH) Monte Carlo simulation by sampling en...
In this paper, a new analytical model for the description of lateral spread of implanted ions is com...
A two-dimensional, two fluid model of the MHD equations has been coupled to a Monte Carlo transport ...
AbstractLinear kinetic Monte Carlo particle transport models are frequently employed in fusion plasm...
International audienceThis paper presents an approach to simulate the free molecular flow in vacuum ...