QCD at small nonzero quark chemical potentials
- 2 July 2001
- journal article
- Published by American Physical Society (APS) in Physical Review D
- Vol. 64 (3)
- https://doi.org/10.1103/physrevd.64.034007
Abstract
We study the effects of small chemical potentials associated with the three light quark flavors in QCD. We use a low-energy effective field theory that solely relies on the symmetries of the QCD partition function. We find three different phases: a normal phase, a pion superfluid phase and a kaon superfluid phase. The two superfluid phases are separated by a first order phase transition, whereas the normal phase and either of the superfluid phases are separated by a second order phase transition. We compute the quark-antiquark condensate, the pion condensate and the kaon condensate in each phase, as well as the isospin density, the strangeness density, and the mass spectrum.Comment: 14 pages, 5 figureKeywords
All Related Versions
This publication has 23 references indexed in Scilit:
- QCD-like theories at finite baryon and isospin densityPhysical Review D, 2001
- QCD-like theories at finite baryon densityNuclear Physics B, 2000
- High-Density QCD and InstantonsAnnals of Physics, 2000
- Meron-Cluster Solution of Fermion Sign ProblemsPhysical Review Letters, 1999
- On two-color QCD with baryon chemical potentialPhysics Letters B, 1999
- Color-flavor locking and chiral symmetry breaking in high density QCDNuclear Physics B, 1999
- Diquark Bose Condensates in High Density Matter and InstantonsPhysical Review Letters, 1998
- QCD at finite baryon density: nucleon droplets and color superconductivityPhysics Letters B, 1998
- Physics of thermal QCDPhysics Reports, 1997
- Superfluidity and superconductivity in relativistic fermion systemsPhysics Reports, 1984