Bose-Fermi cancellations without supersymmetry

Abstract

We show that adjoint QCD features very strong Bose-Fermi cancellations in the large N limit, despite the fact that it is manifestly non-supersymmetric. The difference between the bosonic and fermionic densities of states in large N adjoint QCD turns out to have a `two-dimensional' scaling ( E) for large energies E in finite spatial volume, where is a length scale associated with the curvature of the spatial manifold. In particular, all Hagedorn growth cancels, and so does the growth (V1/4 E3/4) expected in a standard local 4d theory in spatial volume V. In these ways, large N adjoint QCD, a manifestly non-supersymmetric theory, acts similarly to supersymmetric theories. We also show that at large N, the vacuum energy of multi-flavor adjoint QCD is non-negative and exponentially small compared to the UV cutoff with several natural regulators.