Semi-Chiral Operators in 4d ${\cal N}=1$ Gauge Theories
Kasia Budzik, Davide Gaiotto, Justin Kulp, Brian R. Williams,, Jingxiang Wu, Matthew Yu
TL;DR
This paper explores the structure and classification of quarter-BPS operators in 4d ${ m extbf{N}}=1$ supersymmetric gauge theories using holomorphic twists, revealing new algebraic symmetries and dualities.
Contribution
It classifies all single-trace quarter-BPS operators in planar $SU(N)$ gauge theories and proposes a holographic dual description for the twisted theory.
Findings
Classified all single-trace quarter-BPS operators in planar $SU(N)$ gauge theories.
Proposed a holographic dual for the twisted ${ m extbf{N}}=1$ theory.
Discussed perturbative and potential non-perturbative corrections to operator classifications.
Abstract
We discuss the properties of quarter-BPS local operators in four dimensional supersymmetric Yang-Mills theory using the formalism of holomorphic twists. We study loop corrections both to the space of local operators and to algebraic operations which endow the twisted theory with an infinite symmetry algebra. We classify all single-trace quarter-BPS operators in the planar approximation for gauge theory and propose a holographic dual description for the twisted theory. We classify perturbative quarter-BPS operators in and gauge theories with sufficiently small quantum numbers and discuss possible non-perturbative corrections to the answer. We set up analogous calculations for some theories with matter.
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Taxonomy
TopicsBlack Holes and Theoretical Physics · Quantum Chromodynamics and Particle Interactions · Particle physics theoretical and experimental studies