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Torsional Newton Cartan gravity from non-relativistic strings

A.D. Gallegos, U. Gürsoy, N. Zinnato

2020Journal of High Energy Physics49 citationsDOIOpen Access PDF

Abstract

A bstract We study propagation of closed bosonic strings in torsional Newton-Cartan geometry based on a recently proposed Polyakov type action derived by dimensional reduction of the ordinary bosonic string along a null direction. We generalize the Polyakov action proposal to include matter, i.e. the 2-form and the 1-form that originates from the Kalb- Ramond field and the dilaton. We determine the conditions for Weyl invariance which we express as the beta-function equations on the worldsheet, in analogy with the usual case of strings propagating on a pseudo-Riemannian manifold. The critical dimension of the TNC space-time turns out to be 25. We find that Newton’s law of gravitation follows from the requirement of quantum Weyl invariance in the absence of torsion. Presence of the 1-form requires torsion to be non vanishing. Torsion has interesting consequences, in particular it yields a mass term and an advection term in the generalized Newton’s law. U(1) mass invariance of the theory is an important ingredient in deriving the beta functions.

Topics & Concepts

PhysicsTorsion (gastropod)Mathematical physicsGravitationBosonic string theoryDimensional reductionString theoryAction (physics)Theoretical physicsString field theoryEffective actionClassical mechanicsQuantum field theoryQuantumNull (SQL)Quantum gravityField equationString (physics)AnalogyKaluza–Klein theoryTerm (time)Kinetic termGravitational fieldNambu–Goto actionMass gapType (biology)Differential geometryMass generationDimension (graph theory)Equations of motionBlack Holes and Theoretical PhysicsCosmology and Gravitation TheoriesNoncommutative and Quantum Gravity Theories
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