Black Hole Formation—Null Geodesic Correspondence
A. Ianniccari, Antonio J. Iovino, Alex Kehagias, Davide Perrone, Antonio Riotto
Abstract
We provide evidence for a correspondence between the formation of black holes and the stability of circular null geodesics around the collapsing perturbation. We first show that the critical threshold of the compaction function to form a black hole in radiation is well approximated by the critical threshold for the appearance of the first unstable circular orbit in a spherically symmetric background. We also show that the critical exponent in the scaling law of the primordial black hole mass close to the threshold is set by the inverse of the Lyapunov coefficient of the unstable orbits when a self-similar stage is developed close to criticality.
Topics & Concepts
PhysicsGeodesicBlack hole (networking)CriticalityNull (SQL)Perturbation (astronomy)ScalingLyapunov exponentCritical exponentClassical mechanicsCircular orbitExtremal black holeWhite holeInverseSchwarzschild radiusMathematical analysisAstrophysicsQuantum mechanicsGravitationGravitational collapseGeometryMathematicsNonlinear systemComputer sciencePhase transitionDatabaseComputer networkRouting (electronic design automation)Nuclear physicsLink-state routing protocolAccretion (finance)Routing protocolCosmology and Gravitation TheoriesBlack Holes and Theoretical PhysicsAstrophysical Phenomena and Observations