Add to ORKGThis work describes a Monte Carlo algorithm which appropriately takes into account the stochastic behavior of electron transport in solids and treats event-by-event all the elastic and inelastic interactions between the incident electrons and the particles of the solid target. The energy distributions of secondary and backscattered electrons emerging from polymethylmethacrylate (PMMA) irradiated by an electron beam are simulated and compared to the available experimental data
When a monoenergetic electron beam bombards a solid target, some electrons are backscattered without...
[[abstract]]©2004 IOP - The energy distribution of electrons quasi -elastically backscattered from s...
The main scattering mechanisms governing the transport of electrons in PMMA in an energy domain ran...
This work describes a Monte Carlo algorithm which appropriately takes into account the stochastic be...
The ionization yield of ion tracks in polymers and bimolecular systems reaches a maximum, known as t...
This new edition describes all the mechanisms of elastic and inelastic scattering of electrons with ...
We have studied the radial dependence of the energy deposition of the secondary electron generated b...
Significant advancements have occurred in recent years in computer calculation capability which allo...
This new edition describes all the mechanisms of elastic and inelastic scattering of electrons with ...
The Monte Carlo method was used to simulate the process of secondary electrons excitation in resist ...
We report a three-dimensional (3D) simulation model based on the kinetic transport theory for calcul...
The use of proton beams in several modern technologies to probe or modify the properties of material...
To ascertain how high energy of an electron is needed to acquire a sufficient data yield from organi...
In modern physics we are interested in systems with many degrees of freedom. The Monte Carlo (MC) me...
Monte Carlo (MC) technique allows solving mathematical and physical problems of great complexity. On...
When a monoenergetic electron beam bombards a solid target, some electrons are backscattered without...
[[abstract]]©2004 IOP - The energy distribution of electrons quasi -elastically backscattered from s...
The main scattering mechanisms governing the transport of electrons in PMMA in an energy domain ran...
This work describes a Monte Carlo algorithm which appropriately takes into account the stochastic be...
The ionization yield of ion tracks in polymers and bimolecular systems reaches a maximum, known as t...
This new edition describes all the mechanisms of elastic and inelastic scattering of electrons with ...
We have studied the radial dependence of the energy deposition of the secondary electron generated b...
Significant advancements have occurred in recent years in computer calculation capability which allo...
This new edition describes all the mechanisms of elastic and inelastic scattering of electrons with ...
The Monte Carlo method was used to simulate the process of secondary electrons excitation in resist ...
We report a three-dimensional (3D) simulation model based on the kinetic transport theory for calcul...
The use of proton beams in several modern technologies to probe or modify the properties of material...
To ascertain how high energy of an electron is needed to acquire a sufficient data yield from organi...
In modern physics we are interested in systems with many degrees of freedom. The Monte Carlo (MC) me...
Monte Carlo (MC) technique allows solving mathematical and physical problems of great complexity. On...
When a monoenergetic electron beam bombards a solid target, some electrons are backscattered without...
[[abstract]]©2004 IOP - The energy distribution of electrons quasi -elastically backscattered from s...
The main scattering mechanisms governing the transport of electrons in PMMA in an energy domain ran...