Litcius/Paper detail

Kerr-fully diving into the abyss: analytic solutions to plunging geodesics in Kerr

Conor Dyson, Maarten van de Meent

2023Classical and Quantum Gravity15 citationsDOIOpen Access PDF

Abstract

Abstract We present closed-form solutions for the generic class of plunging geodesics in the extended Kerr spacetime using Boyer–Lindquist coordinates. We also specialise to the case of test particles plunging from the innermost precessing stable circular orbit (ISSO) and unstable spherical orbits. We find these solutions in the form of elementary and Jacobi elliptic functions parameterised by Mino time. In particular, we demonstrate that solutions for the ISSO case can be determined almost entirely in terms of elementary functions, depending only on the spin parameter of the black hole and the radius of the ISSO. Furthermore, we introduce a new equation that characterises the radial inflow from the ISSO to the horizon, taking into account the inclination. For ease of application, our solutions have been implemented in a Mathematica package that is available as part of the KerrGeodesics package in the Black Hole Perturbation Toolkit.

Topics & Concepts

PhysicsGeodesicSpacetimeRotating black holeClassical mechanicsPerturbation (astronomy)Solving the geodesic equationsElementary functionBlack hole (networking)RADIUSMathematical physicsAngular momentumMathematical analysisQuantum mechanicsLink-state routing protocolComputer securityRouting (electronic design automation)Computer networkMathematicsRouting protocolComputer scienceAstrophysical Phenomena and ObservationsPulsars and Gravitational Waves ResearchBlack Holes and Theoretical Physics