Higher form symmetries, membranes and flux quantization
Abstract
Higher Forms Symmetries (HFS) of a closed bosonic M2-brane theory formulated on a compactified target space M9 × T2 are obtained. We show that the cancellation of the 't Hooft anomaly present in the theory is related to a 3-form flux with G1∇-gerbe structure associated to the world-volume flux quantization condition. A Wilson surface is naturally introduced on the topological operator that characterize the holonomy of the M2-brane. The projection of the flux quantization condition inherited from the gerbe structure onto the spatial part of the worldvolume, leads to a flux quantization on the M2-brane. The topological operators realise discrete symmetries associated with the winding and the flux/monopole condition. The algebra of operators is well defined.
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