Add to ORKGThe FASTSUM collaboration presents a study on the temperature dependence of the electrical conductivity σ in the quark-gluon plasma, using the methods of lattice QCD. Correlators of the exactly conserved vector current are measured at different temperatures across the deconfinement transition, using ensembles of 2+ 1 flavours of dynamical fermions on anisotropic lattices. We then employ bayesian methods (MEM) to extract the relevant spectral functions, which are found to be consistent with σ/T rising as a function of T. The robustness of the results is verified by a detailed analysis of the systematics involved in the bayesian reconstruction of the spectral functions
A lattice calculation is presented for the electrical conductivity of the QCD plasma with 2 + 1 dyn...
A lattice calculation is presented for the electrical conductivity of the QCD plasma with 2 + 1 dyn...
We present a lattice QCD calculation of the charge diffusion coefficient, the electrical conductivi...
The FASTSUM collaboration presents a study on the temperature dependence of the electrical conductiv...
The FASTSUM collaboration presents a study on the temperature dependence of the electrical conducti...
The FASTSUM collaboration presents a study on the temperature dependence of the electrical conducti...
The FASTSUM collaboration presents a study on the temperature dependence of the electrical conducti...
The FASTSUM collaboration presents a study on the temperature dependence of the electrical conducti...
A discussion on the electrical conductivity of the quark-gluon plasma as determined by lattice QCD i...
Allton C, Aarts G, Amato A, et al. Quark-gluon plasma phenomenology from the lattice. Journal of Phy...
The FASTSUM Collaboration has calculated several quantities relevant for QCD studies at non-zero tem...
Ding H-T, Kaczmarek O, Meyer F. Thermal dilepton rates and electrical conductivity of the QGP from t...
Transport properties of a thermal medium determine how its conserved charge densities (for instance ...
A lattice calculation is presented for the electrical conductivity of the QCD plasma with 2 + 1 dyn...
A lattice calculation is presented for the electrical conductivity of the QCD plasma with 2 + 1 dyn...
A lattice calculation is presented for the electrical conductivity of the QCD plasma with 2 + 1 dyn...
A lattice calculation is presented for the electrical conductivity of the QCD plasma with 2 + 1 dyn...
We present a lattice QCD calculation of the charge diffusion coefficient, the electrical conductivi...
The FASTSUM collaboration presents a study on the temperature dependence of the electrical conductiv...
The FASTSUM collaboration presents a study on the temperature dependence of the electrical conducti...
The FASTSUM collaboration presents a study on the temperature dependence of the electrical conducti...
The FASTSUM collaboration presents a study on the temperature dependence of the electrical conducti...
The FASTSUM collaboration presents a study on the temperature dependence of the electrical conducti...
A discussion on the electrical conductivity of the quark-gluon plasma as determined by lattice QCD i...
Allton C, Aarts G, Amato A, et al. Quark-gluon plasma phenomenology from the lattice. Journal of Phy...
The FASTSUM Collaboration has calculated several quantities relevant for QCD studies at non-zero tem...
Ding H-T, Kaczmarek O, Meyer F. Thermal dilepton rates and electrical conductivity of the QGP from t...
Transport properties of a thermal medium determine how its conserved charge densities (for instance ...
A lattice calculation is presented for the electrical conductivity of the QCD plasma with 2 + 1 dyn...
A lattice calculation is presented for the electrical conductivity of the QCD plasma with 2 + 1 dyn...
A lattice calculation is presented for the electrical conductivity of the QCD plasma with 2 + 1 dyn...
A lattice calculation is presented for the electrical conductivity of the QCD plasma with 2 + 1 dyn...
We present a lattice QCD calculation of the charge diffusion coefficient, the electrical conductivi...