Litcius/Paper detail

Black hole chemistry, the cosmological constant and the embedding tensor

Patrick Meessen, Dimitrios Mitsios, Tomás Ortı́n

2022Journal of High Energy Physics23 citationsDOIOpen Access PDF

Abstract

A bstract We study black-hole thermodynamics in theories that contain dimensionful constants such as the cosmological constant or coupling constants in Wald’s formalism. The most natural way to deal with these constants is to promote them to scalar fields introducing a ( d − 1)-form Lagrange multiplier that forces them to be constant on-shell. These ( d − 1)-form potentials provide a dual description of them and, in the context of superstring/supergravity theories, a higher-dimensional origin/explanation. In the context of gauged supergravity theories, all these constants can be collected in the embedding tensor . We show in an explicit 4-dimensional example that the embedding tensor can also be understood as a thermodynamical variable that occurs in the Smarr formula in a duality-invariant fashion. This establishes an interesting link between black-hole thermodynamics, gaugings and compactifications in the context of superstring/supergravity theories.

Topics & Concepts

PhysicsSupergravitySuperstring theoryCosmological constantTheoretical physicsEmbeddingMathematical physicsCoupling constantBlack hole (networking)ThermodynamicsSupersymmetryQuantum mechanicsRouting (electronic design automation)Computer networkArtificial intelligenceRouting protocolLink-state routing protocolComputer scienceBlack Holes and Theoretical PhysicsCosmology and Gravitation TheoriesNoncommutative and Quantum Gravity Theories