Add to ORKGWe extend the recently developed strong coupling, dimensionally reduced Polyakov-loop effective theory from finite-temperature pure Yang-Mills to include heavy fermions and nonzero chemical potential by means of a hopping parameter expansion. Numerical simulation is employed to investigate the weakening of the deconfinement transition as a function of the quark mass. The tractability of the sign problem in this model is exploited to locate the critical surface in the (M/T,m/T,T) space over the whole range of chemical potentials from zero up to infinity
Engels J, Karsch F, Satz H. A finite size analysis of the heavy quark potential in a deconfining med...
We calculate the deconfinement line of transitions for large N-c QCD at finite temperature and chemi...
We investigate the phase diagram and the baryon mass (MB) in the color SU(Nc = 3) strong coupling la...
Fromm M, Langelage J, Lottini S, Philipsen O. Strong coupling effective theory with heavy fermions. ...
QCD at finite temperature and denisty remains intractable by Monte Carlo simulations for quark chem...
Langelage J, Owe P. The deconfinement transition of finite density QCD with heavy quarks from strong...
In this thesis we explore the characteristics of strongly interacting matter, described by Quantum C...
Fromm M, Langelage J, Lottini S, Philipsen O. The QCD deconfinement transition for heavy quarks and ...
We report on the first steps of an ongoing project to add gauge observables and gauge corrections t...
Lattice Yang-Mills theories at finite temperature can be mapped onto effective 3d spin systems, thus...
For finite baryon chemical potential, conventional lattice descriptions of quantum chromodynamics (Q...
The exploration of the phase diagram of quantum chromodynamics (QCD) is of great importance to descr...
A three-dimensional effective lattice theory of Polyakov loops is derived from QCD by expansions in ...
Quarkonium suppression is one of the most investigated probes of the medium produced in heavy-ion co...
We present results of our ongoing studies of an effective three-dimensional theory of thermal lattic...
Engels J, Karsch F, Satz H. A finite size analysis of the heavy quark potential in a deconfining med...
We calculate the deconfinement line of transitions for large N-c QCD at finite temperature and chemi...
We investigate the phase diagram and the baryon mass (MB) in the color SU(Nc = 3) strong coupling la...
Fromm M, Langelage J, Lottini S, Philipsen O. Strong coupling effective theory with heavy fermions. ...
QCD at finite temperature and denisty remains intractable by Monte Carlo simulations for quark chem...
Langelage J, Owe P. The deconfinement transition of finite density QCD with heavy quarks from strong...
In this thesis we explore the characteristics of strongly interacting matter, described by Quantum C...
Fromm M, Langelage J, Lottini S, Philipsen O. The QCD deconfinement transition for heavy quarks and ...
We report on the first steps of an ongoing project to add gauge observables and gauge corrections t...
Lattice Yang-Mills theories at finite temperature can be mapped onto effective 3d spin systems, thus...
For finite baryon chemical potential, conventional lattice descriptions of quantum chromodynamics (Q...
The exploration of the phase diagram of quantum chromodynamics (QCD) is of great importance to descr...
A three-dimensional effective lattice theory of Polyakov loops is derived from QCD by expansions in ...
Quarkonium suppression is one of the most investigated probes of the medium produced in heavy-ion co...
We present results of our ongoing studies of an effective three-dimensional theory of thermal lattic...
Engels J, Karsch F, Satz H. A finite size analysis of the heavy quark potential in a deconfining med...
We calculate the deconfinement line of transitions for large N-c QCD at finite temperature and chemi...
We investigate the phase diagram and the baryon mass (MB) in the color SU(Nc = 3) strong coupling la...