Litcius/Paper detail

Counting D1-D5-P microstates in supergravity

Daniel Mayerson, Masaki Shigemori

2021SciPost Physics20 citationsDOIOpen Access PDF

Abstract

We quantize the D1-D5-P microstate geometries known as superstrata directly in supergravity. We use Rychkov's consistency condition [hep-th/0512053] which was derived for the D1-D5 system; for superstrata, this condition turns out to be strong enough to fix the symplectic form uniquely. For the (1,0,n) superstrata, we further confirm this quantization by a bona-fide explicit computation of the symplectic form using the semi-classical covariant quantization method in supergravity. We use the resulting quantizations to count the known supergravity superstrata states, finding agreement with previous countings that the number of these states grows parametrically smaller than those of the corresponding black hole.

Topics & Concepts

Symplectic geometrySupergravityCovariant transformationQuantization (signal processing)ComputationPhysicsConsistency (knowledge bases)MathematicsMathematical physicsPure mathematicsMinistateTheoretical physicsInvariant (physics)Black Holes and Theoretical PhysicsNoncommutative and Quantum Gravity TheoriesQuantum Electrodynamics and Casimir Effect
Counting D1-D5-P microstates in supergravity | Litcius