Electrical conductivity and thermal dilepton rate from quenched lattice QCD

Kaczmarek O, Francis A (2011)
J.Phys.G 38(12).

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Abstract
We report on a continuum extrapolation of the vector current correlation function for light valence quarks in the deconfined phase of quenched QCD. This is achieved by performing a systematic analysis of the influence of cut-off effects on light quark meson correlators at $T\simeq 1.45 T_c$ using clover improved Wilson fermions. We discuss resulting constraints on the electrical conductivity and the thermal dilepton rate in a quark gluon plasma. In addition new results at 1.2 and 3.0 $T_c$ will be presented.
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Kaczmarek O, Francis A. Electrical conductivity and thermal dilepton rate from quenched lattice QCD. J.Phys.G. 2011;38(12).
Kaczmarek, O., & Francis, A. (2011). Electrical conductivity and thermal dilepton rate from quenched lattice QCD. J.Phys.G, 38(12).
Kaczmarek, O., and Francis, A. (2011). Electrical conductivity and thermal dilepton rate from quenched lattice QCD. J.Phys.G 38.
Kaczmarek, O., & Francis, A., 2011. Electrical conductivity and thermal dilepton rate from quenched lattice QCD. J.Phys.G, 38(12).
O. Kaczmarek and A. Francis, “Electrical conductivity and thermal dilepton rate from quenched lattice QCD”, J.Phys.G, vol. 38, 2011.
Kaczmarek, O., Francis, A.: Electrical conductivity and thermal dilepton rate from quenched lattice QCD. J.Phys.G. 38, (2011).
Kaczmarek, Olaf, and Francis, Anthony. “Electrical conductivity and thermal dilepton rate from quenched lattice QCD”. J.Phys.G 38.12 (2011).
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