Abstract
In QCD at high density, the color-octet quark-antiquark condensate $\langle\overline\psi\gamma_0(\lambda^A)_C (\lambda^A)_F\psi\rangle$ is generally nonzero and dynamically breaks the $\mathrm{SU}(3)_C\times \mathrm{SU}(3)_L\times\mathrm{SU}(3)_R$ symmetry down to the diagonal $\mathrm{SU}(3)_V$. We evaluate this condensate in the mean-field approximation and find that it is of order $\mu\Delta^2\log(\mu/\Delta)$ where $\Delta$ is the BCS gap of quarks. Next we propose a novel non-Hermitian chiral random matrix theory that describes the formation of colorful quark-antiquark condensates. We take the microscopic large-$N$ limit and find that three phases appear depending on the parameter of the model. They are the color-flavor locked phase, the polar phase, and the normal phase. We rigorously derive the effective theory of Nambu-Goldstone modes and determine the quark-mass dependence of the partition function.
Highlights
Understanding confinement and chiral symmetry breaking in the QCD vacuum is a grand challenge in nuclear and hadron physics
It has been established that the QCD vacuum hosts a nonvanishing chiral condensate hψψi which breaks the SUðNfÞL × SUðNfÞR chiral symmetry down to SUðNfÞV
We constructed a new chiral random matrix model and showed, by taking the large-N limit, that a novel adjoint CFL phase appears for a particular range of the parameter of the model
Summary
Understanding confinement and chiral symmetry breaking in the QCD vacuum is a grand challenge in nuclear and hadron physics. ÐλAÞC denote the generators of color SU(3) and ðλBÞF the generators of flavor SU(3) Such a condensate locks SUð3ÞL × SUð3ÞR × SUð3ÞC to the diagonal SUð3ÞV subgroup, and quarks and gluons acquire nonzero masses. We shall ignore the chiral condensate and the diquark condensate that are predominant at low and high density, respectively In this regard, we admit that the proposed RMT is not of direct phenomenological relevance for the phase diagram of QCD [51].
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