Add to ORKGAfter a brief introduction to scattering processes, a simple theory of the interaction between an electron stream and a thin solid film is described. The energy dependence of the backscattering coefficient is considered in the formulation of the theory. Then the theoretical results are compared with the Palluell, Cosslett and Thomas, and Bishop experimental data. The energy dissipation of the electron beam in the solid film and the possibility of evaluating the thickness of thin films deposited on substrates by measuring the backscattering coefficient are discussed
In electron microscopy an electron-beam impinges on a solid target. Each individual electron loses e...
A Monte Carlo code is described, validated, and utilized to calculate the backscattering coefficient...
This paper deals with the backscattering and the transmission of electrons with energy \u3c 3 keV th...
The fraction of absorbed, backscattered, and transmitted electrons bombarding a thin solid film are ...
When an electron beam impinges on a solid, some particles of the beam come back and emerge from the ...
When electron beams are directed against solid targets (unsupported thin film, bulk or surface film)...
We have computed, by a Monte Carlo code, the backscattering coefficient of low-medium energy electro...
The backscattering coefficient of low-medium energy electron beams (from 250 eV to 10,000 eV) imping...
Electron-matter interaction is described by a Monte Carlo procedure in which the mean free path is c...
The low energy backscattering coefficient for the special case of film of carbon deposited on alumin...
A Monte Carlo program has been used to simulate the energy dissipation of medium-energy electrons (1...
Monte Carlo computations of the electron backscattering coefficient as a function of the primary ene...
The multiple reflection method of Schmidt has been developed to study the general case of backscatte...
After a brief introduction to scattering processes, a Monte Carlo procedure is described and used to...
The different aspects of electron backscattering from solid films are calculated in terms of simple ...
In electron microscopy an electron-beam impinges on a solid target. Each individual electron loses e...
A Monte Carlo code is described, validated, and utilized to calculate the backscattering coefficient...
This paper deals with the backscattering and the transmission of electrons with energy \u3c 3 keV th...
The fraction of absorbed, backscattered, and transmitted electrons bombarding a thin solid film are ...
When an electron beam impinges on a solid, some particles of the beam come back and emerge from the ...
When electron beams are directed against solid targets (unsupported thin film, bulk or surface film)...
We have computed, by a Monte Carlo code, the backscattering coefficient of low-medium energy electro...
The backscattering coefficient of low-medium energy electron beams (from 250 eV to 10,000 eV) imping...
Electron-matter interaction is described by a Monte Carlo procedure in which the mean free path is c...
The low energy backscattering coefficient for the special case of film of carbon deposited on alumin...
A Monte Carlo program has been used to simulate the energy dissipation of medium-energy electrons (1...
Monte Carlo computations of the electron backscattering coefficient as a function of the primary ene...
The multiple reflection method of Schmidt has been developed to study the general case of backscatte...
After a brief introduction to scattering processes, a Monte Carlo procedure is described and used to...
The different aspects of electron backscattering from solid films are calculated in terms of simple ...
In electron microscopy an electron-beam impinges on a solid target. Each individual electron loses e...
A Monte Carlo code is described, validated, and utilized to calculate the backscattering coefficient...
This paper deals with the backscattering and the transmission of electrons with energy \u3c 3 keV th...