We describe a new model of electron transport mechanics, the method by which an electron is transported geo-metrically in an infinite medium as a function of pathlength, s, the accumulated elastic multiple-scattering angular deflection characterized by H\u85s, the polar scattering angle, and U, a random azimuthal angle. This model requires only one sample of the multiple-scattering angle yet it reproduces exactly the following spatial moments and space–angular correlations: hzi, hx sin H cos Ui, hy sin H sin Ui, hz cos Hi, hx2i, hy2i and hz2i. Moreover, the distributions associated with these moments exhibit a good improvement over the PENELOPE transport mechanics model when compared self-consistently with the results of analog simulations....
This new edition describes all the mechanisms of elastic and inelastic scattering of electrons with ...
The main goal of this thesis was to prove the feasibility of basing electron depth dose calculations...
A simple geometry is chosen to highlight similarities and differences of current electron transport ...
This work investigates the transport of electrons having energies near those of the atomic binding l...
A new Condensed History algorithm is introduced to enhance the Monte Carlo simulation of electron tr...
The computer code system PENELOPE (version 2008) performs Monte Carlo simulation of coupled electro...
The physical algorithms implemented in the latest release of the general-purpose Monte Carlo code PE...
The present work describes the implementation of the multiple scattering formalism for charged parti...
The transport of electrons and other charged particles is fundamentally different from that of neutr...
''Condensed History'' algorithms are Monte Carlo models for electron transport problems, They descri...
Abstract A mixed algorithm for Monte Carlo simulation of relativistic electron and positron transpor...
A new Monte Carlo algorithm for electron transport at high electric fields in Si is presented
The subject of this dissertation is a moment-preserving Monte Carlo electron transport method that i...
Since the 1940s, much attention has been devoted to the problem of accurate theoretical description ...
The Response History Monte Carlo (RHMC) method, a new Monte Carlo method developed for electron tran...
This new edition describes all the mechanisms of elastic and inelastic scattering of electrons with ...
The main goal of this thesis was to prove the feasibility of basing electron depth dose calculations...
A simple geometry is chosen to highlight similarities and differences of current electron transport ...
This work investigates the transport of electrons having energies near those of the atomic binding l...
A new Condensed History algorithm is introduced to enhance the Monte Carlo simulation of electron tr...
The computer code system PENELOPE (version 2008) performs Monte Carlo simulation of coupled electro...
The physical algorithms implemented in the latest release of the general-purpose Monte Carlo code PE...
The present work describes the implementation of the multiple scattering formalism for charged parti...
The transport of electrons and other charged particles is fundamentally different from that of neutr...
''Condensed History'' algorithms are Monte Carlo models for electron transport problems, They descri...
Abstract A mixed algorithm for Monte Carlo simulation of relativistic electron and positron transpor...
A new Monte Carlo algorithm for electron transport at high electric fields in Si is presented
The subject of this dissertation is a moment-preserving Monte Carlo electron transport method that i...
Since the 1940s, much attention has been devoted to the problem of accurate theoretical description ...
The Response History Monte Carlo (RHMC) method, a new Monte Carlo method developed for electron tran...
This new edition describes all the mechanisms of elastic and inelastic scattering of electrons with ...
The main goal of this thesis was to prove the feasibility of basing electron depth dose calculations...
A simple geometry is chosen to highlight similarities and differences of current electron transport ...