The free energy of the large-$N$ fermionic Chern$\small-$Simons theory in the 'temporal' gauge

Abstract

Most of the computational evidence for the Bose$\small-$Fermi duality of fundamental fields coupled to $U(N)$ Chern$\small-$Simons theories originates in the large-$N$ calculations performed in the light-cone gauge. In this paper, we use another gauge, the 'temporal' gauge, to evaluate the finite temperature partition function of $U(N)$ coupled regular and critical fermions on $\mathbb{R}^2$ at large $N$. We first set up the finite temperature gap equations, and then use tricks explored in arXiv:1410.0558 to solve these equations and evaluate the partition function. Our final results are in perfect agreement with earlier light-cone gauge results. The success of our 'temporal' gauge calculation potentially opens a path to computations that are awkward in light-cone gauge but more natural in the 'temporal' gauge, e.g. the evaluation of the thermal free energy on a finite-sized sphere.Comment: 75 page