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Gravitational breathing memory and dual symmetries

Ali Seraj

2021Journal of High Energy Physics40 citationsDOIOpen Access PDF

Abstract

A bstract Brans-Dicke theory contains an additional propagating mode which causes homogeneous expansion and contraction of test bodies in transverse directions. This “breathing” mode is associated with novel memory effects in addition to those of general relativity. Standard tensor mode memories are related to a symmetry principle: they are determined by the balance equations corresponding to the BMS symmetries. In this paper, we show that the leading and subleading breathing memory effects are determined by the balance equations associated with the leading and “overleading” asymptotic symmetries of a dual formulation of the scalar field in terms of a two-form gauge field. The memory effect causes a transition in the vacuum of the dual gauge theory. These results highlight the significance of dual charges and the physical role of overleading asymptotic symmetries.

Topics & Concepts

PhysicsHomogeneous spaceScalar (mathematics)Symmetry (geometry)GravitationGauge theoryHomogeneousQuantum electrodynamicsGauge (firearms)Classical mechanicsScalar fieldTensor (intrinsic definition)Mathematical physicsSpontaneous symmetry breakingGauge symmetryTheoretical physicsContraction (grammar)Dual (grammatical number)Continuous symmetryAction (physics)Quantum mechanicsTensor fieldVacuum stateStandard Model (mathematical formulation)Mode (computer interface)Pulsars and Gravitational Waves ResearchBlack Holes and Theoretical PhysicsCosmology and Gravitation Theories
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