Ritchie Dielectric Theory: calculation of the inelastic mean free path, of the differential inverse inelastic mean free path and of the cumulative inelastic probability distribution.

Momentum transfer dependence of reflection electron energy loss spectra: theory and experiment

Calliari, Lucia
Dapor, Maurizio
Garberoglio, Giovanni
Sergey Fanchenko

January 2014

Measured reflection electron energy loss spectra excited by 2 keV electrons in Si are simulated by a...

How the choice of model dielectric function affects the calculated observables

Vos, Maarten
Grande, P L

November 2020

It is investigated how the model used to describe a dielectric function (i.e. a Mermin, Drude, Drude...

Energy loss of fast electrons impinging upon polymethylmethacrylate

Dapor, Maurizio

January 2015

This paper deals with the calculation of the differential inverse inelastic mean free path, the inel...

Determination of electron inelastic mean free path of three transition metals from reflection electron energy loss spectroscopy spectrum measurement data

Lihao Yang
Károly Tőkési
Bo Da
Zejun Ding

February 2019

The energy loss functions (ELFs) of three transition metals (Cr, Co and Pd) have been derived from r...

Input data set of Cu, Ag and Au, regarding electron elastic and inelastic scattering, for the calculation of the Reflection Electron Energy Loss Spectra

Azzolini, M

The dataset reports input data regarding electron elastic and inelastic scattering. As investigated...

Inelastic Mean Free Paths of Low-Energy Electrons in Solids

Tanuma, S.
Powell, C. J.
Penn, D. R.

February 1992

We present a summary of recent calculations of the electron inelastic mean free paths (IMFPs) of 50-...

Electron elastic scattering treated with the Mott theory: calculation of the elastic mean free path, of the differential elastic cross section and of the cumulative elastic probability distribution

Kaplya, P (via Mendeley Data)

February 2018

This routine, realized for the MATLAB platform, calculates input data regarding electron elasti scat...

ELF dielectric functions for various materials.

Pauly, Nicolas
Yubero, Francisco
Tougaard, Sven

February 2022

Data for the energy loss function (ELF) of selected materials compiled from various publications. T...

The Inelastic Mean Free Path οf Electrons. Research in Budapest, Warsaw, Wrocław and Clermont-Ferrand. Brief History and New Results

Gergely, G.
Gurban, S.
Menyhard, M.
Jablonski, A.
Zommer, L.

December 2008

The inelastic mean free path of electrons (IMFP) is an important material parameter for description ...

A comparison between Monte Carlo method and the numerical solution of the Ambartsumian-Chandrasekhar equations to unravel the dielectric response of metals

Azzolini, Martina
Ridzel, Olga Yu.
Kaplya, Pavel S.
Afanas’ev, Viktor
Pugno, Nicola M.
Taioli, Simone
Dapor, Maurizio

January 2020

In this work we describe two different models for interpreting and predicting Reflection Electron En...

QUASES-Inelastic electron mean free path calculator (by TPP2M formula)

Tougaard, Sven

November 2021

The QUASES-IMFP-TPP2M-CF software is a user friendly calculator for the inelastic electron mean free...

Electron inelastic mean free paths in biological matter based on dielectric theory and local-field corrections

Emfietzoglou, Dimitris
Kyriakou, Ioanna
Abril Sánchez, Isabel
García Molina, Rafael
Petsalakis, I.D.
Nikjoo, Hooshang
Pathak, A.

November 2008

The inelastic mean free path (IMFP) of electrons with energies up to a few keV is calculated from th...

ELECTRON INELASTIC MEAN FREE PATHS IN SEVERAL SOLIDS FOR 200 EV LESS-THAN-OR-EQUAL-TO E LESS-THAN-OR-EQUAL-TO 10 KEV

ASHLEY, JC

Inelastic scattering of electrons in water from first principles: cross sections and inelastic mean free path for use in Monte Carlo track-structure simulations of biological damage

Koval, Natalia E.
Koval, Peter
Da Pieve, Fabiana
Kohanoff, Jorge
Artacho, Emilio
Emfietzoglou, Dimitris

May 2022

Modelling the inelastic scattering of electrons in water is fundamental, given their crucial role in...

Extracting the dielectric function from high-energy REELS measurements

Vos, Maarten
Grande, P L

November 2020

A method is described for extracting the dielectric function directly from a reflection electron ene...

Momentum transfer dependence of reflection electron energy loss spectra: theory and experiment

Calliari, Lucia
Dapor, Maurizio
Garberoglio, Giovanni
Sergey Fanchenko

January 2014

Measured reflection electron energy loss spectra excited by 2 keV electrons in Si are simulated by a...

How the choice of model dielectric function affects the calculated observables

Vos, Maarten
Grande, P L

November 2020

It is investigated how the model used to describe a dielectric function (i.e. a Mermin, Drude, Drude...

Energy loss of fast electrons impinging upon polymethylmethacrylate

Dapor, Maurizio

January 2015

This paper deals with the calculation of the differential inverse inelastic mean free path, the inel...

Determination of electron inelastic mean free path of three transition metals from reflection electron energy loss spectroscopy spectrum measurement data

Lihao Yang
Károly Tőkési
Bo Da
Zejun Ding

February 2019

The energy loss functions (ELFs) of three transition metals (Cr, Co and Pd) have been derived from r...

Input data set of Cu, Ag and Au, regarding electron elastic and inelastic scattering, for the calculation of the Reflection Electron Energy Loss Spectra

Azzolini, M

The dataset reports input data regarding electron elastic and inelastic scattering. As investigated...

Inelastic Mean Free Paths of Low-Energy Electrons in Solids

Tanuma, S.
Powell, C. J.
Penn, D. R.

February 1992

We present a summary of recent calculations of the electron inelastic mean free paths (IMFPs) of 50-...

Electron elastic scattering treated with the Mott theory: calculation of the elastic mean free path, of the differential elastic cross section and of the cumulative elastic probability distribution

Kaplya, P (via Mendeley Data)

February 2018

This routine, realized for the MATLAB platform, calculates input data regarding electron elasti scat...

ELF dielectric functions for various materials.

Pauly, Nicolas
Yubero, Francisco
Tougaard, Sven

February 2022

Data for the energy loss function (ELF) of selected materials compiled from various publications. T...

The Inelastic Mean Free Path οf Electrons. Research in Budapest, Warsaw, Wrocław and Clermont-Ferrand. Brief History and New Results

Gergely, G.
Gurban, S.
Menyhard, M.
Jablonski, A.
Zommer, L.

December 2008

The inelastic mean free path of electrons (IMFP) is an important material parameter for description ...

A comparison between Monte Carlo method and the numerical solution of the Ambartsumian-Chandrasekhar equations to unravel the dielectric response of metals

Azzolini, Martina
Ridzel, Olga Yu.
Kaplya, Pavel S.
Afanas’ev, Viktor
Pugno, Nicola M.
Taioli, Simone
Dapor, Maurizio

January 2020

In this work we describe two different models for interpreting and predicting Reflection Electron En...

QUASES-Inelastic electron mean free path calculator (by TPP2M formula)

Tougaard, Sven

November 2021

The QUASES-IMFP-TPP2M-CF software is a user friendly calculator for the inelastic electron mean free...

Electron inelastic mean free paths in biological matter based on dielectric theory and local-field corrections

Emfietzoglou, Dimitris
Kyriakou, Ioanna
Abril Sánchez, Isabel
García Molina, Rafael
Petsalakis, I.D.
Nikjoo, Hooshang
Pathak, A.

November 2008

The inelastic mean free path (IMFP) of electrons with energies up to a few keV is calculated from th...

ELECTRON INELASTIC MEAN FREE PATHS IN SEVERAL SOLIDS FOR 200 EV LESS-THAN-OR-EQUAL-TO E LESS-THAN-OR-EQUAL-TO 10 KEV

ASHLEY, JC

Inelastic scattering of electrons in water from first principles: cross sections and inelastic mean free path for use in Monte Carlo track-structure simulations of biological damage

Koval, Natalia E.
Koval, Peter
Da Pieve, Fabiana
Kohanoff, Jorge
Artacho, Emilio
Emfietzoglou, Dimitris

May 2022

Modelling the inelastic scattering of electrons in water is fundamental, given their crucial role in...

Extracting the dielectric function from high-energy REELS measurements

Vos, Maarten
Grande, P L

November 2020

A method is described for extracting the dielectric function directly from a reflection electron ene...

Momentum transfer dependence of reflection electron energy loss spectra: theory and experiment

Calliari, Lucia
Dapor, Maurizio
Garberoglio, Giovanni
Sergey Fanchenko

January 2014

Measured reflection electron energy loss spectra excited by 2 keV electrons in Si are simulated by a...

How the choice of model dielectric function affects the calculated observables

Vos, Maarten
Grande, P L

November 2020

It is investigated how the model used to describe a dielectric function (i.e. a Mermin, Drude, Drude...

Energy loss of fast electrons impinging upon polymethylmethacrylate

Dapor, Maurizio

January 2015

This paper deals with the calculation of the differential inverse inelastic mean free path, the inel...

Ritchie Dielectric Theory: calculation of the inelastic mean free path, of the differential inverse inelastic mean free path and of the cumulative inelastic probability distribution.

Abstract

Extracted data

Ritchie Dielectric Theory: calculation of the inelastic mean free path, of the differential inverse inelastic mean free path and of the cumulative inelastic probability distribution.

Abstract

Extracted data

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