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Averaging over Narain moduli space

Alexander Maloney, Edward Witten

2020Journal of High Energy Physics152 citationsDOIOpen Access PDF

Abstract

A bstract Recent developments involving JT gravity in two dimensions indicate that under some conditions, a gravitational path integral is dual to an average over an ensemble of boundary theories, rather than to a specific boundary theory. For an example in one dimension more, one would like to compare a random ensemble of two-dimensional CFT’s to Einstein gravity in three dimensions. But this is difficult. For a simpler problem, here we average over Narain’s family of two-dimensional CFT’s obtained by toroidal compactification. These theories are believed to be the most general ones with their central charges and abelian current algebra symmetries, so averaging over them means picking a random CFT with those properties. The average can be computed using the Siegel-Weil formula of number theory and has some properties suggestive of a bulk dual theory that would be an exotic theory of gravity in three dimensions. The bulk dual theory would be more like U(1) 2 D Chern-Simons theory than like Einstein gravity.

Topics & Concepts

PhysicsGravitationBoundary (topology)Moduli spaceEinsteinDimension (graph theory)Space (punctuation)Quantum gravityDual (grammatical number)M-theoryTheoretical physicsHigher-dimensional Einstein gravityPath integral formulationSupergravityAbelian groupMathematical physicsCentral chargeSpacetimeParameterized post-Newtonian formalismClassical mechanicsModuliBoundary value problemExtra dimensionsGeneral relativityUnified field theoryCurrent (fluid)Degrees of freedom (physics and chemistry)ToroidRandom matrixSpace timeFive-dimensional spaceF-theoryBlack Holes and Theoretical PhysicsGeometry and complex manifoldsNoncommutative and Quantum Gravity Theories
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