Litcius/Paper detail

Disconnected 0-form and 2-group symmetries

Lakshya Bhardwaj, Dewi S. W. Gould

2023Journal of High Energy Physics26 citationsDOIOpen Access PDF

Abstract

A bstract Quantum field theories can have both continuous and finite 0-form symmetries. We study global symmetry structures that arise when both kinds of 0-form symmetries are present. The global structure associated to continuous 0-form symmetries is described by a connected Lie group, which captures the possible backgrounds of the continuous 0-form symmetries the theory can be coupled to. Finite 0-form symmetries can act as outer-automorphisms of this connected Lie group. Consequently, possible background couplings to both continuous and finite 0-form symmetries are described by a disconnected Lie group, and we call the resulting symmetry structure a disconnected 0-form symmetry. Additionally, finite 0-form symmetries may act on the 1-form symmetry group. The 1-form symmetries and continuous 0-form symmetries may combine to form a 2-group, which when combined with finite 0-form symmetries leads to another type of 2-group, that we call a disconnected 2-group and the resulting symmetry structure a disconnected 2-group symmetry. Examples of arbitrarily complex disconnected 0-form and 2-group symmetries in any spacetime dimension are furnished by gauge theories: with 1-form symmetries arising from the center of the gauge group, continuous 0-form symmetries arising as flavor symmetries acting on matter content, and finite 0-form symmetries arising from outer-automorphisms of gauge and flavor Lie algebras.

Topics & Concepts

Homogeneous spacePhysicsSpacetime symmetriesSymmetry (geometry)Group (periodic table)AutomorphismSymmetry groupGauge symmetryPure mathematicsMathematical physicsGauge theoryTheoretical physicsQuantum mechanicsMathematicsQuantumGeometryQuantum gravityQuantum field theory in curved spacetimeBlack Holes and Theoretical PhysicsNoncommutative and Quantum Gravity TheoriesNonlinear Waves and Solitons