Conveners
Parallel I: A3 Vacuum structure and confinement
- Manfried Faber (Vienna University of Technology)
Description
Applications of strongly interacting matter and chiral matter to material science.
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Umut Gursoy (University of Utrecht (NL))12/09/2014, 16:20Section A: Vacuum Structure and ConfinementThe hot QCD matter produced in any heavy ion collision with a nonzero impact parameter is produced within a strong magnetic field. We study the imprint that these fields leave on the azimuthal distributions and correlations of the produced charged hadrons. The magnetic field is time-dependent and the medium is expanding, which leads to the induction of charged currents due to the combination...Go to contribution page
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Andrey Ustyuzhanin (ITEP Institute for Theoretical and Experimental Physics (RU))12/09/2014, 16:50Section A: Vacuum Structure and ConfinementIn this talk we focus on a meta-problem of physics i.e. on problems that arise in collaborative computational research. HEP research is a meaningful and important example. Problems come from different aspects of complexity of research and usually are more generic than research in physics and probably apparent in all computational science domains. A possible solution for such problems is...Go to contribution page
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Ahmed Bakry (Chinese Academy of Sciences-Institute of modern Physics)12/09/2014, 17:20Section A: Vacuum Structure and ConfinementWe look for the signature of the confining Y-bosonic string in the gluonic profile due to a system of three static quarks on the lattice. The gluonic distribution is calculated in pure Yang-Mills lattice gauge theory at finite temperature with Polyakov loops operators. The analysis of the action density unveils a background of a filled-$\Delta$ distribution. However, we found an underlying...Go to contribution page