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Transport of Energetic Electrons in Solids: Computer Simulation with Applications to Materials Analysis and Characterization

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This book presents the potential of the Monte Carlo (MC) technique to solve mathematical and physical problems of great complexity. This book focusses on the study of the electron-solid interaction (transport MC) and presents some physical problems related to the transport of hot electrons in solid targets using transport MC. The numerical and theoretical results are validated through a comparison with experimental results. The author also addresses methodological aspects. In particular, systematic comparisons among different calculation schemes are presented. Different expressions for the calculation of cross sections and/or stopping power and different simulation methods are described and discussed.

Author(s): Maurizio Dapor (auth.)
Series: Springer Tracts in Modern Physics 257
Edition: 1
Publisher: Springer International Publishing
Year: 2014

Language: English
Pages: 146
Tags: Solid State Physics; Numerical and Computational Physics; Characterization and Evaluation of Materials; Appl.Mathematics/Computational Methods of Engineering

Front Matter....Pages i-xiv
Electron Transport in Solids....Pages 1-8
Cross-Sections: Basic Aspects....Pages 9-14
Scattering Mechanisms....Pages 15-41
Random Numbers....Pages 43-47
Monte Carlo Strategies....Pages 49-63
Backscattering Coefficient....Pages 65-79
Secondary Electron Yield....Pages 81-91
Electron Energy Distributions....Pages 93-105
Applications....Pages 107-115
Appendix A: Mott Theory....Pages 117-122
Appendix B: Fröhlich Theory....Pages 123-133
Appendix C: Ritchie Theory....Pages 135-140
Appendix D: Chen and Kwei and Li et al. Theory....Pages 141-143
Back Matter....Pages 145-146