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International Journal of Radiation Biology Volume 88, 2012 - Issue 1-2
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Research Article

Elastic scattering cross section models used for Monte Carlo simulation of electron tracks in media of biological and medical interest

David LiljequistDepartment of Physics, Stockholm University, Albanova University Center, StockholmCorrespondence[email protected]
,
Thiansin LiamsuwanDepartment of Oncology-Pathology, Karolinska Institutet, Stockholm, Sweden
&
Hooshang NikjooDepartment of Oncology-Pathology, Karolinska Institutet, Stockholm, Sweden
Pages 29-37 | Received 19 Dec 2010, Accepted 26 Apr 2011, Published online: 15 Jul 2011

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Thiansin Liamsuwan, Dimitris Emfietzoglou, Shuzo Uehara & Hooshang Nikjoo. (2012) Microdosimetry of low-energy electrons. International Journal of Radiation Biology 88:12, pages 899-907.
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Articles from other publishers (22)

N. A. Mori, L. H. Scarlett, I. Bray & D. V. Fursa. (2023) Calculations of positron scattering from atomic oxygen. The European Physical Journal D 77:10.
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Marc Benjamin Hahn. (2023) Accessing radiation damage to biomolecules on the nanoscale by particle-scattering simulations. Journal of Physics Communications 7:4, pages 042001.
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N. A. Mori, L. H. Scarlett, I. Bray & D. V. Fursa. (2023) Convergent close-coupling calculations of positron scattering from atomic carbon. Physical Review A 107:3.
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V. Lemelin, A. D. Bass & L. Sanche. (2020) Low energy (6–18 eV) electron scattering from condensed thymidine (dT) III: absolute electronic excitation cross sections. Physical Chemistry Chemical Physics 22:16, pages 8364-8372.
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V. Lemelin, A. D. Bass, P. Cloutier & L. Sanche. (2019) Low energy (1–19 eV) electron scattering from condensed thymidine (dT) II: comparison of vibrational excitation cross sections with those of tetrahydrofuran and the recalibrated values of thymine. Physical Chemistry Chemical Physics 21:43, pages 23818-23825.
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V. Lemelin, A. D. Bass, P. Cloutier & L. Sanche. (2019) Low energy (1–19 eV) electron scattering from condensed thymidine (dT) I: absolute vibrational excitation cross sections. Physical Chemistry Chemical Physics 21:43, pages 23808-23817.
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V. Lemelin & L. Sanche. 2019. Radiation in Bioanalysis. Radiation in Bioanalysis 3 42 .
W.-G. Shin, M.-C. Bordage, D. Emfietzoglou, I. Kyriakou, D. Sakata, C. H. Min, S. B. Lee, S. Guatelli & S. Incerti. (2018) Development of a new Geant4-DNA electron elastic scattering model for liquid-phase water using the ELSEPA code. Journal of Applied Physics 124:22.
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Nabila Yasmina Aouina & Zine-El-Abidine Chaoui. (2018) Simulation of positron and electron elastic mean free path and diffusion angle on DNA nucleobases from 10 eV to 100 keV. Surface and Interface Analysis 50:10, pages 939-946.
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Dimitris Emfietzoglou, George Papamichael & Hooshang Nikjoo. (2017) Monte Carlo Electron Track Structure Calculations in Liquid Water Using a New Model Dielectric Response Function. Radiation Research 188:3, pages 355-368.
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H Nikjoo, D Emfietzoglou, T Liamsuwan, R Taleei, D Liljequist & S Uehara. (2016) Radiation track, DNA damage and response—a review. Reports on Progress in Physics 79:11, pages 116601.
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I. Kyriakou, M. Šefl, V. Nourry & S. Incerti. (2016) The impact of new Geant4-DNA cross section models on electron track structure simulations in liquid water. Journal of Applied Physics 119:19.
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Klaus Huthmacher, André Herzwurm, Michael Gnewuch, Klaus Ritter & Baerbel Rethfeld. (2015) Monte Carlo simulation of electron dynamics in liquid water. Physica A: Statistical Mechanics and its Applications 429, pages 242-251.
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Piotr Pater, Jan Seuntjens, Issam El Naqa & Mario A. Bernal. (2014) On the consistency of Monte Carlo track structure DNA damage simulations. Medical Physics 41:12, pages 121708.
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D. Liljequist & H. Nikjoo. (2014) On the validity of trajectory methods for calculating the transport of very low energy (<1keV) electrons in liquids and amorphous media. Radiation Physics and Chemistry 99, pages 45-52.
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C Wälzlein, E Scifoni, M Krämer & M Durante. (2014) Simulations of dose enhancement for heavy atom nanoparticles irradiated by protons. Physics in Medicine and Biology 59:6, pages 1441-1458.
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C. Wälzlein, M. Krämer, E. Scifoni & M. Durante. (2014) Low-energy electron transport in non-uniform media. Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms 320, pages 75-82.
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Hiroyuki Date. (2014) 2. Monte Carlo Method and Simulation. Japanese Journal of Radiological Technology 70:7, pages 705-714.
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H. Nikjoo & T. Liamsuwan. 2014. Comprehensive Biomedical Physics. Comprehensive Biomedical Physics 65 104 .
E Lechtman, S Mashouf, N Chattopadhyay, B M Keller, P Lai, Z Cai, R M Reilly & J-P Pignol. (2013) A Monte Carlo-based model of gold nanoparticle radiosensitization accounting for increased radiobiological effectiveness. Physics in Medicine and Biology 58:10, pages 3075-3087.
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Elahe Alizadeh & Léon Sanche. (2012) Precursors of Solvated Electrons in Radiobiological Physics and Chemistry. Chemical Reviews 112:11, pages 5578-5602.
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Mohammad Rezaee, Pierre Cloutier, Andrew D. Bass, Marc Michaud, Darel J. Hunting & Léon Sanche. (2012) Absolute cross section for low-energy-electron damage to condensed macromolecules: A case study of DNA. Physical Review E 86:3.
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