Celestial Topology, Symmetry Theories, and Evidence for a Non-SUSY D3-Brane CFT

Abstract

Symmetry Theories (SymThs) provide a flexible framework for analyzing the global categorical symmetries of a D-dimensional QFTD in terms of a (D+1)-dimensional bulk system SymThD+1. In QFTs realized via local string backgrounds, these SymThs naturally arise from dimensional reduction of the linking boundary geometry. To track possible time dependent effects we introduce a celestial generalization of the standard "boundary at infinity" of a SymTh. As an application of these considerations we revisit large N quiver gauge theories realized by spacetime filling D3-branes probing a non-supersymmetric orbifold R6 / . Comparing the imprint of symmetry breaking on the celestial geometry at small and large 't Hooft coupling we find evidence for an intermediate symmetry preserving conformal fixed point.