Ionization Cross Sections for Low Energy Electron Transport
Two models for the calculation of ionization cross sections by electron impact on atoms, the Binary-Encouter-Bethe and the Deutsch-Märk models, have been implemented; they are intended to extend and improve Geant4 simulation capabilities in the energy range below 1 keV. The physics features of the...
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| Published in | IEEE transactions on nuclear science Vol. 58; no. 6; pp. 3219 - 3245 |
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| Main Authors | , , , |
| Format | Journal Article |
| Language | English |
| Published |
New York
IEEE
01.12.2011
The Institute of Electrical and Electronics Engineers, Inc. (IEEE) |
| Subjects | |
| Online Access | Get full text |
| ISSN | 0018-9499 1558-1578 |
| DOI | 10.1109/TNS.2011.2171992 |
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| Abstract | Two models for the calculation of ionization cross sections by electron impact on atoms, the Binary-Encouter-Bethe and the Deutsch-Märk models, have been implemented; they are intended to extend and improve Geant4 simulation capabilities in the energy range below 1 keV. The physics features of the implementation of the models are described, and their differences with respect to the original formulations are discussed. Results of the verification with respect to the original theoretical sources and of extensive validation with respect to experimental data are reported. The validation process also concerns the ionization cross sections included in the Evaluated Electron Data Library used by Geant4 for low energy electron transport. Among the three cross section options, the Deutsch-Märk model is identified as the most accurate at reproducing experimental data over the energy range subject to test. |
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| AbstractList | Two models for the calculation of ionization cross sections by electron impact on atoms, the Binary-Encouter-Bethe and the Deutsch-Märk models, have been implemented; they are intended to extend and improve Geant4 simulation capabilities in the energy range below 1 keV. The physics features of the implementation of the models are described, and their differences with respect to the original formulations are discussed. Results of the verification with respect to the original theoretical sources and of extensive validation with respect to experimental data are reported. The validation process also concerns the ionization cross sections included in the Evaluated Electron Data Library used by Geant4 for low energy electron transport. Among the three cross section options, the Deutsch-Märk model is identified as the most accurate at reproducing experimental data over the energy range subject to test. Two models for the calculation of ionization cross sections by electron impact on atoms, the Binary-Encouter-Bethe and the Deutsch-Maerk models, have been implemented; they are intended to extend and improve Geant4 simulation capabilities in the energy range below 1 keV. The physics features of the implementation of the models are described, and their differences with respect to the original formulations are discussed. Results of the verification with respect to the original theoretical sources and of extensive validation with respect to experimental data are reported. The validation process also concerns the ionization cross sections included in the Evaluated Electron Data Library used by Geant4 for low energy electron transport. Among the three cross section options, the Deutsch-Maerk model is identified as the most accurate at reproducing experimental data over the energy range subject to test. Two models for the calculation of ionization cross sections by electron impact on atoms, the Binary-Encouter-Bethe and the Deutsch-Märk models, have been implemented; they are intended to extend and improve Geant4 simulation capabilities in the energy range below 1 keV. The physics features of the implementation of the models are described, and their differences with respect to the original formulations are discussed. Results of the verification with respect to the original theoretical sources and of extensive validation with respect to experimental data are reported. The validation process also concerns the ionization cross sections included in the Evaluated Electron Data Library used by Geant4 for low energy electron transport. Among the three cross section options, the Deutsch-Märk model is identified as the most accurate at reproducing experimental data over the energy range subject to test. |
| Author | Saracco, P. Chan Hyeong Kim Hee Seo Pia, M. G. |
| Author_xml | – sequence: 1 surname: Hee Seo fullname: Hee Seo organization: Dept. of Nucl. Eng., Hanyang Univ., Seoul, South Korea – sequence: 2 givenname: M. G. surname: Pia fullname: Pia, M. G. email: mariagrazia.pia@ge.infn.it organization: INFN Sezione di Genova, Genova, Italy – sequence: 3 givenname: P. surname: Saracco fullname: Saracco, P. email: paolo.saracco@ge.infn.it organization: INFN Sezione di Genova, Genova, Italy – sequence: 4 surname: Chan Hyeong Kim fullname: Chan Hyeong Kim email: chkim@hanyang.ac.kr organization: Dept. of Nucl. Eng., Hanyang Univ., Seoul, South Korea |
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| Snippet | Two models for the calculation of ionization cross sections by electron impact on atoms, the Binary-Encouter-Bethe and the Deutsch-Märk models, have been... Two models for the calculation of ionization cross sections by electron impact on atoms, the Binary-Encouter-Bethe and the Deutsch-Märk models, have been... Two models for the calculation of ionization cross sections by electron impact on atoms, the Binary-Encouter-Bethe and the Deutsch-Maerk models, have been... |
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| SubjectTerms | Computer simulation Cross sections Electron impact Electron transport Electrons Energy Energy (nuclear) Experimental data Geant4 Ionization Ionization cross sections Low energy Mathematical models Monte Carlo Monte Carlo methods Simulation |
| Title | Ionization Cross Sections for Low Energy Electron Transport |
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