A Monte Carlo code has been developed to simulate individual electron interactions. The code has been instrumental in determining the range of validity for the widely used condensed history method. This task was accomplished by isolating and testing the condensed history assumptions. The results show that the condensed history method fails for low energy electron transport due to inaccuracies in energy loss and spatial positioning.Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/29795/1/0000141.pd
Low energy electron scattering (LEES) courses in solids are described by using a strict theory and d...
The transport of electrons and other charged particles is fundamentally different from that of neutr...
We propose an application of the Monte Carlo method in the field of backscattering. The results obta...
The Response History Monte Carlo (RHMC) method, a new Monte Carlo method developed for electron tran...
A Monte Carlo procedure to simulate the penetration and energy loss of low¿energy electron beams thr...
This work investigates the transport of electrons having energies near those of the atomic binding l...
A single scatter electron Monte Carlo code (SSMC), CREEP, has been written which bridges the gap bet...
Condensed history algorithms are approximate electron transport Monte Carlo methods in which the cum...
Although the Condensed History Algorithm is a successful and widely-used Monte Carlo method for solv...
A Monte Carlo study of backscattering of kilovolt electrons in solids, a process of primary importan...
The interaction of electrons with matter has been a subject of intense work since the beginning of...
A new Condensed History algorithm is introduced to enhance the Monte Carlo simulation of electron tr...
The main goal of this thesis was to prove the feasibility of basing electron depth dose calculations...
The one-dimensional discrete ordinates code ANISN has been adapted to simulate the transport of low-...
Implementing a Monte Carlo simulation for application to electron sample interactions requires use o...
Low energy electron scattering (LEES) courses in solids are described by using a strict theory and d...
The transport of electrons and other charged particles is fundamentally different from that of neutr...
We propose an application of the Monte Carlo method in the field of backscattering. The results obta...
The Response History Monte Carlo (RHMC) method, a new Monte Carlo method developed for electron tran...
A Monte Carlo procedure to simulate the penetration and energy loss of low¿energy electron beams thr...
This work investigates the transport of electrons having energies near those of the atomic binding l...
A single scatter electron Monte Carlo code (SSMC), CREEP, has been written which bridges the gap bet...
Condensed history algorithms are approximate electron transport Monte Carlo methods in which the cum...
Although the Condensed History Algorithm is a successful and widely-used Monte Carlo method for solv...
A Monte Carlo study of backscattering of kilovolt electrons in solids, a process of primary importan...
The interaction of electrons with matter has been a subject of intense work since the beginning of...
A new Condensed History algorithm is introduced to enhance the Monte Carlo simulation of electron tr...
The main goal of this thesis was to prove the feasibility of basing electron depth dose calculations...
The one-dimensional discrete ordinates code ANISN has been adapted to simulate the transport of low-...
Implementing a Monte Carlo simulation for application to electron sample interactions requires use o...
Low energy electron scattering (LEES) courses in solids are described by using a strict theory and d...
The transport of electrons and other charged particles is fundamentally different from that of neutr...
We propose an application of the Monte Carlo method in the field of backscattering. The results obta...