Three-dimensional super Yang-Mills with compressible quark matter

TL;DR

This paper constructs a gravity dual for 3D super Yang-Mills with dynamical quarks and finite density, revealing complex RG flows to non-relativistic geometries and analyzing thermodynamic properties.

Contribution

It introduces a new supergravity solution capturing the backreaction of flavor branes with finite density, and explores the resulting RG flows and IR geometries.

Findings

Flow to hyperscaling-violating Lifshitz geometry with z=5, θ=1.

Presence of an intermediate AdS4 region at small density.

Computed thermodynamic quantities like chemical potential, speed of sound, and entropy density.

Abstract

We construct the gravity dual of three-dimensional, $SU(N_{\textrm{c}})$ super Yang-Mills theory with $N_{\textrm{f}}$ flavors of dynamical quarks in the presence of a non-zero quark density $N_{\textrm{q}}$. The supergravity solutions include the backreaction of $N_{\textrm{c}}$ color D2-branes and $N_{\textrm{f}}$ flavor D6-branes with $N_{\textrm{q}}$ units of electric flux on their worldvolume. For massless quarks, the solutions depend non-trivially only on the dimensionless combination $\rho=N_{\textrm{c}}^2 N_{\textrm{q}} / \lambda^2 N_{\textrm{f}}^4$, with $\lambda=g_{\textrm{YM}}^2 N_{\textrm{c}}$ the 't Hooft coupling, and describe renormalization group flows between the super Yang-Mills theory in the ultraviolet and a non-relativistic theory in the infrared. The latter is dual to a hyperscaling-violating, Lifshitz-like geometry with dynamical and hyperscaling-violating exponents $z=5$ and $\theta=1$, respectively. If $\rho \ll 1$ then at intermediate energies there is also an approximate AdS$_4$ region, dual to a conformal Chern-Simons-Matter theory, in which the flow exhibits quasi-conformal dynamics. At zero temperature we compute the chemical potential and the equation of state and extract the speed of sound. At low temperature we compute the entropy density and extract the number of low-energy degrees of freedom. For quarks of non-zero mass $M_{\textrm{q}}$ the physics depends non-trivially on $\rho$ and $M_{\textrm{q}} N_{\textrm{c}}/\lambda N_{\textrm{f}}$.