Modelling single positron tracks in Ar
Date
2012
Authors
McEachran, Robert
Sullivan, James
Buckman, Stephen
Brunger, Michael J
Fuss, M C
Munoz, A.
Blanco, Francisco
White, R D
Petrovic, Z Lj
Limao-Vieira, P
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Volume Title
Publisher
Institute of Physics Publishing
Abstract
In this study, we present a complete set of positron interaction cross sections for scattering from Ar, for incident energies ranging from 0 to 10 keV. Experimental data have been critically reviewed from previous experiments performed at the Australian National University and University College London. Differential and integral cross sections, including the effect of positronium formation, have been calculated by using two different optical potential methods. The results of these calculations, in combination with experimental cross sections and experimental energy-loss spectra, have been established as input parameters for an event-by-event Monte Carlo simulation procedure to generate single positron tracks in argon. The reliability of this method to obtain energy deposition models at the nano-scale is also discussed.
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Keywords
Keywords: Australian National University; Cross section; Energy depositions; Energy-loss spectrum; Experimental data; Incident energy; Input parameter; Integral cross-sections; Monte Carlo Simulation; Nano scale; Optical potential; Positronium formation; University
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Source
Journal of Physics B: Atomic, Molecular and Optical Physics
Type
Journal article
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2037-12-31
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