Litcius/Paper detail

T-Witts from the horizon

H. Adami, D. Grumiller, S. Sadeghian, M.M. Sheikh-Jabbari, C. Zwikel

2020Journal of High Energy Physics58 citationsDOIOpen Access PDF

Abstract

Abstract Expanding around null hypersurfaces, such as generic Kerr black hole horizons, using co-rotating Kruskal-Israel-like coordinates we study the associated surface charges, their symmetries and the corresponding phase space within Einstein gravity. Our surface charges are not integrable in general. Their integrable part generates an algebra including superrotations and a BMS 3 -type algebra that we dub “T-Witt algebra”. The non-integrable part accounts for the flux passing through the null hypersurface. We put our results in the context of earlier constructions of near horizon symmetries, soft hair and of the program to semi-classically identify Kerr black hole microstates.

Topics & Concepts

PhysicsNull (SQL)HorizonIntegrable systemContext (archaeology)Homogeneous spaceRotating black holeBlack hole (networking)Event horizonWhite holeEinsteinSurface (topology)Mathematical physicsPhase spaceSpace (punctuation)Charged black holeTheoretical physicsNonsingular black hole modelsSpacetimeExtremal black holeEinstein equationsFuzzballVirasoro algebraClassical mechanicsCentral chargeBlack hole thermodynamicsQuantum electrodynamicsSpace timeApparent horizonPhase (matter)Black Holes and Theoretical PhysicsAstrophysical Phenomena and ObservationsNoncommutative and Quantum Gravity Theories
T-Witts from the horizon | Litcius