On the temperature dependence of the electrical conductivity in hot quenched lattice QCD

Francis A, Kaczmarek O (2012)
Progress in Particle and Nuclear Physics 67(2): 212-217.

Journal Article | Published | English

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Abstract
Extending our recent work (Ding et al., 2011[8]), we report on a calculation of the vector current correlation function for light valence quarks in the deconfined phase of quenched QCD in the temperature range 1.16T(c) less than or similar to T <= 2.98T(c). After performing a systematic analysis of the influence of cut-off effects on light quark meson correlators using clover improved Wilson fermions, we discuss resulting constraints on the electrical conductivity in a quark gluon plasma. (C) 2012 Elsevier B.V. All rights reserved.
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Francis A, Kaczmarek O. On the temperature dependence of the electrical conductivity in hot quenched lattice QCD. Progress in Particle and Nuclear Physics. 2012;67(2):212-217.
Francis, A., & Kaczmarek, O. (2012). On the temperature dependence of the electrical conductivity in hot quenched lattice QCD. Progress in Particle and Nuclear Physics, 67(2), 212-217.
Francis, A., and Kaczmarek, O. (2012). On the temperature dependence of the electrical conductivity in hot quenched lattice QCD. Progress in Particle and Nuclear Physics 67, 212-217.
Francis, A., & Kaczmarek, O., 2012. On the temperature dependence of the electrical conductivity in hot quenched lattice QCD. Progress in Particle and Nuclear Physics, 67(2), p 212-217.
A. Francis and O. Kaczmarek, “On the temperature dependence of the electrical conductivity in hot quenched lattice QCD”, Progress in Particle and Nuclear Physics, vol. 67, 2012, pp. 212-217.
Francis, A., Kaczmarek, O.: On the temperature dependence of the electrical conductivity in hot quenched lattice QCD. Progress in Particle and Nuclear Physics. 67, 212-217 (2012).
Francis, Anthony, and Kaczmarek, Olaf. “On the temperature dependence of the electrical conductivity in hot quenched lattice QCD”. Progress in Particle and Nuclear Physics 67.2 (2012): 212-217.
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