Ebook: Electron-Beam Interactions with Solids: Application of the Monte Carlo Method to Electron Scattering Problems
Author: Dr. Maurizio Dapor (eds.)
- Tags: Surfaces and Interfaces Thin Films, Optical and Electronic Materials, Mathematical and Computational Physics, Particle Acceleration and Detection Beam Physics
- Series: Springer Tracts in Modern Physics 186
- Year: 2003
- Publisher: Springer-Verlag Berlin Heidelberg
- Edition: 1
- Language: English
- pdf
The interaction of electron beams with solid targets has been studied since the early part of the last century. Present interest is spurred on by the fundamental role played by the electron-solid interaction in - among other areas - scanning electron microscopy, electron-probe microanalysis and Auger electron spectroscopy. This book aims to investigate selected aspects of the interaction of electrons with matter (backscattering coefficient for bulk targets, absorption, backscattering and transmission for supported and unsupported thin films, implantation profiles, secondary electron emission and so on); to study the probabilistic laws of interaction of the individual electrons with the atoms (elastic and inelastic cross sections); to introduce the Monte Carlo method and its use for computing the macroscopic characteristics of the interaction processes. Each chapter compares theory, simulations and experimental data.
The interaction of electron beams with solid targets has been studied since the early part of the last century. Present interest is spurred on by the fundamental role played by the electron-solid interaction in - among other areas - scanning electron microscopy, electron-probe microanalysis and Auger electron spectroscopy. This book aims to investigate selected aspects of the interaction of electrons with matter (backscattering coefficient for bulk targets, absorption, backscattering and transmission for supported and unsupported thin films, implantation profiles, secondary electron emission and so on); to study the probabilistic laws of interaction of the individual electrons with the atoms (elastic and inelastic cross sections); to introduce the Monte Carlo method and its use for computing the macroscopic characteristics of the interaction processes. Each chapter compares theory, simulations and experimental data.
The interaction of electron beams with solid targets has been studied since the early part of the last century. Present interest is spurred on by the fundamental role played by the electron-solid interaction in - among other areas - scanning electron microscopy, electron-probe microanalysis and Auger electron spectroscopy. This book aims to investigate selected aspects of the interaction of electrons with matter (backscattering coefficient for bulk targets, absorption, backscattering and transmission for supported and unsupported thin films, implantation profiles, secondary electron emission and so on); to study the probabilistic laws of interaction of the individual electrons with the atoms (elastic and inelastic cross sections); to introduce the Monte Carlo method and its use for computing the macroscopic characteristics of the interaction processes. Each chapter compares theory, simulations and experimental data.
Content:
Front Matter....Pages I-VIII
Introduction....Pages 1-4
The Spin of the Electron....Pages 5-16
Elastic Scattering....Pages 17-42
Inelastic Scattering....Pages 43-52
Electrons Impinging on Solid Targets....Pages 53-68
Monte Carlo Simulations....Pages 69-91
Matrices and Operators....Pages 91-94
The Dirac Notation....Pages 95-98
Special Functions....Pages 99-103
Back Matter....Pages 105-109
The interaction of electron beams with solid targets has been studied since the early part of the last century. Present interest is spurred on by the fundamental role played by the electron-solid interaction in - among other areas - scanning electron microscopy, electron-probe microanalysis and Auger electron spectroscopy. This book aims to investigate selected aspects of the interaction of electrons with matter (backscattering coefficient for bulk targets, absorption, backscattering and transmission for supported and unsupported thin films, implantation profiles, secondary electron emission and so on); to study the probabilistic laws of interaction of the individual electrons with the atoms (elastic and inelastic cross sections); to introduce the Monte Carlo method and its use for computing the macroscopic characteristics of the interaction processes. Each chapter compares theory, simulations and experimental data.
Content:
Front Matter....Pages I-VIII
Introduction....Pages 1-4
The Spin of the Electron....Pages 5-16
Elastic Scattering....Pages 17-42
Inelastic Scattering....Pages 43-52
Electrons Impinging on Solid Targets....Pages 53-68
Monte Carlo Simulations....Pages 69-91
Matrices and Operators....Pages 91-94
The Dirac Notation....Pages 95-98
Special Functions....Pages 99-103
Back Matter....Pages 105-109
....
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