Add to ORKGThe penetration range of energetic electrons into diverse materials can be modeled approximately with a simple fit. This fit is a function of a single parameter, Nv, which describes the effective number of valence electrons. Using the Continuous-Slow-Down-Approximation (CSDA) for energy deposition in a material, a composite analytical formula has been developed which estimates the range or maximum penetration depth of incident electrons for energies from10 MeV with an uncertainty o
A new definition is proposed for the range of fast (1 keV - 50 keV) electrons in solid materials: th...
International audienceThe Secondary Electron Emission (SEE) process plays an important role in the p...
In this work we studied interaction electrons with matter; I calculated the stopping power (in MeV c...
The penetration range of energetic electrons into diverse materials can be modeled approximately wit...
The Continuous-Slow-Down Approximation (CSDA) is used to create a simple composite analytical formul...
The penetration range of an electron into diverse materials can be estimated using an approximation ...
The continuous-slow-down approximation (CSDA) is used to create a simple composite analytical formul...
A model developed by the Materials Research Group that calculates electron penetration range of some...
An empirical model developed by the Materials Research Group that predicts the approximate electron ...
A simple composite analytic expression has been developed to approximate the electron range in mater...
An empirical model that predicts the approximate electron penetration depth—or range—of some common ...
Secondary Electron Yield is a key parameter in spacecraft charging. In order to develop a robust mod...
Empirical correlation of high energy electrons into materials allows predictions of practical ranges...
The electron range is a measure of the straight-line penetration distance of electrons in a solid [1...
Power and charge deposition in multilayer dielectrics from electron bombardment is dependent upon th...
A new definition is proposed for the range of fast (1 keV - 50 keV) electrons in solid materials: th...
International audienceThe Secondary Electron Emission (SEE) process plays an important role in the p...
In this work we studied interaction electrons with matter; I calculated the stopping power (in MeV c...
The penetration range of energetic electrons into diverse materials can be modeled approximately wit...
The Continuous-Slow-Down Approximation (CSDA) is used to create a simple composite analytical formul...
The penetration range of an electron into diverse materials can be estimated using an approximation ...
The continuous-slow-down approximation (CSDA) is used to create a simple composite analytical formul...
A model developed by the Materials Research Group that calculates electron penetration range of some...
An empirical model developed by the Materials Research Group that predicts the approximate electron ...
A simple composite analytic expression has been developed to approximate the electron range in mater...
An empirical model that predicts the approximate electron penetration depth—or range—of some common ...
Secondary Electron Yield is a key parameter in spacecraft charging. In order to develop a robust mod...
Empirical correlation of high energy electrons into materials allows predictions of practical ranges...
The electron range is a measure of the straight-line penetration distance of electrons in a solid [1...
Power and charge deposition in multilayer dielectrics from electron bombardment is dependent upon th...
A new definition is proposed for the range of fast (1 keV - 50 keV) electrons in solid materials: th...
International audienceThe Secondary Electron Emission (SEE) process plays an important role in the p...
In this work we studied interaction electrons with matter; I calculated the stopping power (in MeV c...