Silver Blaze Puzzle in 1/Nc Expansions of Cold and Dense QCD Matter

Abstract

We consider quantum chromodynamics (QCD) with Nc colors and Nf quark flavors at finite quark chemical potential muq or isospin chemical potential muI. We specifically address the nature of the ``Silver Blaze'' behavior in the framework of 1/Nc expansion. Starting with the QCD partition function, we implement Veneziano's Nf/Nc expansion to identify the density onset. We find the baryon mass MB and the pion mass mpi appearing from different order of Veneziano's expansion. We argue that the confining properties are responsible for the Silver Blaze in the region of mpi/2 < muq < MB/Nc. We point out, however, that Veneziano's expansion brings about a puzzling subtlety along the same line as the baryon problem in finite-density quenched simulations. We emphasize that the large-Nc limit can allow for the physical ordering of MB and mpi thanks to the similarity to the quenched approximation, while the unphysical ghost quarks contaminate the baryon sector if Nc is finite. We also discuss the ``orientifold'' large-Nc limit that does not quench quark loops.