E. T. Tomboulis
Published 2014-03-04, updated 2014-03-10Version 2
We study $SU(N_c)$ lattice gauge theories with $N_f$ flavors of massless staggered fermions in the presence of quark chemical potential $\mu$. A recent exact result that in the strong coupling limit (vanishing inverse gauge coupling $\beta$) and for sufficiently large $\mu$ the theory is in a chiral symmetric phase is here extended into the finite gauge coupling region. A cluster expansion combining a fermion spacelike hopping expansion and a strong coupling plaquette expansion is shown to converge for sufficiently large $\mu$ and small $\beta$ at any temperature $T$. All expectations of chirally non-invariant local fermion operators vanish identically, or, equivalently, their correlations cluster exponentially within the expansion implying absence of spontaneous chiral symmetry breaking. The resulting phase at low $T$ may be described as a "quarkyonic" matter phase. Some implications for the phase diagram of $SU(N_c)$ theories are discussed.
Comments: 18 pages, 4 figures, some comments and additional discussion and references included. arXiv admin note: substantial text overlap with arXiv:1304.4678
k-strings and baryon vertices in SU(N) gauge theories
Lattice Regularization of Gauge Theories Without Loss of Chiral Symmetry
The spectrum of SU(N) gauge theories at nonzero theta
![QR code for arXiv:1403.0664 [hep-th]](http://oss.arxitics.com/images/favicon.svg)