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

Inelastic scattering of low-energy electrons in liquid water computed from optical-data models of the Bethe surface

D. EmfietzoglouMedical Physics Laboratory, University of Ioannina Medical School, Ioannina, GreeceCorrespondence[email protected]
,
I. KyriakouMedical Physics Laboratory, University of Ioannina Medical School, Ioannina, Greece
,
I. AbrilDepartament de Física Aplicada, Universitat d'Alacant, Alacant, Spain
,
R. Garcia-MolinaDepartamento de Física - CIOyN, Universidad de Murcia, Murcia, Spain
&
H. NikjooRadiation Biophysics Group, Department of Oncology-Pathology, Karolinska Institute, Stockholm, Sweden
Pages 22-28 | Received 17 Dec 2010, Accepted 09 May 2011, Published online: 14 Jul 2011

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Toshinori Suzuki. (2012) Time-resolved photoelectron spectroscopy of non-adiabatic electronic dynamics in gas and liquid phases. International Reviews in Physical Chemistry 31:2, pages 265-318.
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Articles from other publishers (41)

Natalia E. Koval, Peter Koval, Fabiana Da Pieve, Jorge Kohanoff, Emilio Artacho & Dimitris Emfietzoglou. (2022) 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. Royal Society Open Science 9:5.
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Ioanna Kyriakou, Dousatsu Sakata, Hoang Ngoc Tran, Yann Perrot, Wook-Geun Shin, Nathanael Lampe, Sara Zein, Marie Claude Bordage, Susanna Guatelli, Carmen Villagrasa, Dimitris Emfietzoglou & Sébastien Incerti. (2021) Review of the Geant4-DNA Simulation Toolkit for Radiobiological Applications at the Cellular and DNA Level. Cancers 14:1, pages 35.
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Nidhi Sinha & Bobby Antony. (2021) Mean Free Paths and Cross Sections for Electron Scattering from Liquid Water. The Journal of Physical Chemistry B 125:21, pages 5479-5488.
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G. Massillon-JL. (2021) Future directions on low-energy radiation dosimetry. Scientific Reports 11:1.
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Spyridon A. Kalospyros, Zacharenia Nikitaki, Ioanna Kyriakou, Michael Kokkoris, Dimitris Emfietzoglou & Alexandros G. Georgakilas. (2021) A Mathematical Radiobiological Model (MRM) to Predict Complex DNA Damage and Cell Survival for Ionizing Particle Radiations of Varying Quality. Molecules 26:4, pages 840.
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S. Shekarforoush, H. Jalali, M. Yagmurcukardes, M. V. Milošević & M. Neek-Amal. (2020) Optoelectronic properties of confined water in angstrom-scale slits. Physical Review B 102:23.
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Xiaqi Zhang, Fang Wang, Ming Weng & Meng Cao. (2020) Calculations of energy deposition and ionization in the 2019 novel coronavirus by electron beam irradiation. Radiation Physics and Chemistry 177, pages 109169.
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Stefanos Margis, Maria Magouni, Ioanna Kyriakou, Alexandros G Georgakilas, Sebastien Incerti & Dimitris Emfietzoglou. (2020) Microdosimetric calculations of the direct DNA damage induced by low energy electrons using the Geant4-DNA Monte Carlo code. Physics in Medicine & Biology 65:4, pages 045007.
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Axel Schild, Michael Peper, Conaill Perry, Dominik Rattenbacher & Hans Jakob Wörner. (2020) Alternative Approach for the Determination of Mean Free Paths of Electron Scattering in Liquid Water Based on Experimental Data. The Journal of Physical Chemistry Letters 11:3, pages 1128-1134.
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Alyaa A. Hasan, Khalid A. Ahmed & Baida M. Ahmed. Effective number of electrons and ionization potential of organic and inorganic compounds of swift proton. Effective number of electrons and ionization potential of organic and inorganic compounds of swift proton.
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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S. Incerti, I. Kyriakou, M. A. Bernal, M. C. Bordage, Z. Francis, S. Guatelli, V. Ivanchenko, M. Karamitros, N. Lampe, S. B. Lee, S. Meylan, C. H. Min, W. G. Shin, P. Nieminen, D. Sakata, N. Tang, C. Villagrasa, H. N. Tran & J. M. C. Brown. (2018) Geant4‐DNA example applications for track structure simulations in liquid water: A report from the Geant4‐DNA Project. Medical Physics 45:8.
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Hieu T Nguyen-Truong. (2018) Low-energy electron inelastic mean free paths for liquid water. Journal of Physics: Condensed Matter 30:15, pages 155101.
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Hong Qi Tan, Zhaohong Mi & Andrew A. Bettiol. (2018) Simple and universal model for electron-impact ionization of complex biomolecules. Physical Review E 97:3.
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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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Maarten Vos & Pedro L. Grande. (2017) Simple model dielectric functions for insulators. Journal of Physics and Chemistry of Solids 104, pages 192-197.
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S. Incerti, I. Kyriakou & H.N. Tran. (2017) Geant4-DNA simulation of electron slowing-down spectra in liquid water. Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms 397, pages 45-50.
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H. Shinotsuka, B. Da, S. Tanuma, H. Yoshikawa, C. J. Powell & D. R. Penn. (2017) Calculations of electron inelastic mean free paths. XI. Data for liquid water for energies from 50 eV to 30 keV. Surface and Interface Analysis 49:4, pages 238-252.
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Rafael Garcia-Molina, Isabel Abril, Ioanna Kyriakou & Dimitris Emfietzoglou. (2017) Inelastic scattering and energy loss of swift electron beams in biologically relevant materials. Surface and Interface Analysis 49:1, pages 11-17.
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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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Michel Fromm & Omar Boulanouar. (2016) Low energy electrons and ultra-soft X-rays irradiation of plasmid DNA. Technical innovations. Radiation Physics and Chemistry 128, pages 44-53.
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Christopher G.H. Walker, Luděk Frank & Ilona Müllerová. (2016) Simulations and measurements in scanning electron microscopes at low electron energy. Scanning 38:6, pages 802-818.
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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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Piotr Zygmanski & Erno Sajo. (2016) Nanoscale radiation transport and clinical beam modeling for gold nanoparticle dose enhanced radiotherapy (GNPT) using X-rays. The British Journal of Radiology 89:1059, pages 20150200.
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Maarten Vos. (2016) A model dielectric function for low and very high momentum transfer. Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms 366, pages 6-12.
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M.A. Bernal, M.C. Bordage, J.M.C. Brown, M. Davídková, E. Delage, Z. El Bitar, S.A. Enger, Z. Francis, S. Guatelli, V.N. Ivanchenko, M. Karamitros, I. Kyriakou, L. Maigne, S. Meylan, K. Murakami, S. Okada, H. Payno, Y. Perrot, I. Petrovic, Q.T. Pham, A. Ristic-Fira, T. Sasaki, V. Štěpán, H.N. Tran, C. Villagrasa & S. Incerti. (2015) Track structure modeling in liquid water: A review of the Geant4-DNA very low energy extension of the Geant4 Monte Carlo simulation toolkit. Physica Medica 31:8, pages 861-874.
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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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I. Kyriakou, S. Incerti & Z. Francis. (2015) Technical Note: Improvements in geant 4 energy-loss model and the effect on low-energy electron transport in liquid water . Medical Physics 42:7, pages 3870-3876.
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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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Yoshi-Ichi Suzuki, Kiyoshi Nishizawa, Naoya Kurahashi & Toshinori Suzuki. (2014) Effective attenuation length of an electron in liquid water between 10 and 600 eV. Physical Review E 90:1.
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Zhenyu Tan & Wei Liu. (2014) Monte Carlo calculations of energy deposition distributions of electrons below 20 keV in protein. Radiation and Environmental Biophysics 53:2, pages 427-435.
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Toshinori Suzuki. (2014) Nonadiabatic Electronic Dynamics in Isolated Molecules and in Solution Studied by Ultrafast Time–Energy Mapping of Photoelectron Distributions. Bulletin of the Chemical Society of Japan 87:3, pages 341-354.
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Zhenyu Tan & Wei Liu. (2013) Calculations of stopping powers and inelastic mean free paths for 20 eV–20 keV electrons in 11 types of human tissue. Applied Radiation and Isotopes 82, pages 325-331.
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Dimitris Emfietzoglou, Ioanna Kyriakou, Rafael Garcia-Molina, Isabel Abril & Hooshang Nikjoo. (2013) Inelastic Cross Sections for Low-Energy Electrons in Liquid Water: Exchange and Correlation Effects. Radiation Research 180:5, pages 499-513.
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Hieu T. Nguyen-Truong. (2013) Determination of the maximum energy loss for electron stopping power calculations and its effect on backscattering electron yield in Monte-Carlo simulations applying continuous slowing-down approximation. Journal of Applied Physics 114:16.
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Jun-Li Li, Chun-Yan Li, Rui Qiu, Cong-Chong Yan, Wen-Zhang Xie, Zhi Zeng & Chuan-Jong Tung. (2013) Comparison of direct DNA strand breaks induced by low energy electrons with different inelastic cross sections. Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms 311, pages 27-36.
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Andrius Kleinauskas, Sandra Rocha, Sushant Sahu, Ya-Ping Sun & Petras Juzenas. (2013) Carbon-core silver-shell nanodots as sensitizers for phototherapy and radiotherapy. Nanotechnology 24:32, pages 325103.
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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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Zhenyu Tan, Lei Dong & Fule Tang. (2012) Monte Carlo calculations of characteristic quantities of low-energy electron irradiation to spacecraft dielectrics. Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms 285, pages 86-93.
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Georgios Kalantzis, Dimitrios Emfietzoglou & Panagiotis Hadjidoukas. (2012) A unified spatio-temporal parallelization framework for accelerated Monte Carlo radiobiological modeling of electron tracks and subsequent radiation chemistry. Computer Physics Communications 183:8, pages 1683-1695.
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Rafael Garcia-Molina, Isabel Abril, Pablo de Vera, Ioanna Kyriakou & Dimitris Emfietzoglou. (2012) Role of the interaction processes in the depth-dose distribution of proton beams in liquid water. Journal of Physics: Conference Series 373, pages 012015.
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