Abstract
We revisit the symmetries of massless two-dimensional adjoint QCD with gauge group SU(N). The dynamics is not sufficiently constrained by the ordinary symmetries and anomalies. Here we show that the theory in fact admits ∼ 22N non-invertible symmetries which severely constrain the possible infrared phases and massive excitations. We prove that for all N these new symmetries enforce deconfinement of the fundamental quark. When the adjoint quark has a small mass, m ≪ gYM, the theory confines and the non-invertible symmetries are softly broken. We use them to compute analytically the k-string tension for N ≤ 5. Our results suggest that the k-string tension, Tk, is Tk ∼ |m| sin(πk/N) for all N. We also consider the dynamics of adjoint QCD deformed by symmetric quartic fermion interactions. These operators are not generated by the RG flow due to the non-invertible symmetries, thus violating the ordinary notion of naturalness. We conjecture partial confinement for the deformed theory by these four-fermion interactions, and prove it for SU(N ≤ 5) gauge theory. Comparing the topological phases at zero and large mass, we find that a massless particle ought to appear on the string for some intermediate nonzero mass, consistent with an emergent supersymmetry at nonzero mass. We also study the possible infrared phases of adjoint QCD allowed by the non-invertible symmetries, which we are able to do exhaustively for small values of N. The paper contains detailed reviews of ideas from fusion category theory that are essential for the results we prove.
Highlights
Introduction and summaryConfinement in gauge theories has been a central subject of research in quantum field theory for decades
We study the possible infrared phases of adjoint Quantum Chromodynamics (QCD) allowed by the non-invertible symmetries, which we are able to do exhaustively for small values of N
In the context of massless adjoint QCD, we have argued above that one has exponentially many degenerate ground states as a result of the non-invertible symmetries
Summary
Confinement in gauge theories has been a central subject of research in quantum field theory for decades. When the adjoint quark is massless, the gauge theory is in the deconfined phase, i.e. the Wilson line in the fundamental representation obeys a perimeter law. Our main aim in this paper is to show that this gauge theory admits many “exotic” symmetries, of the order of 22N “exotic” symmetries These symmetries correspond to non-invertible topological lines. The model has nontrivial excitations at that scale and it is not known to be solvable This coset model is exactly equivalent to the SU(N ) gauge theory with Majorana fermions in the adjoint representation (and a sum over the spin structures). An important claim of this paper is that 1+1-dimensional massless adjoint QCD has non-invertible topological lines This serves as an ultraviolet reason for the complete deconfinement of the theory that we will show. The fusion algebra of the lines is η ⊗ η 1, N ⊗ η η ⊗ N N , N ⊗ N 1 + η,
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