Bound orbit domains in the phase space of the Kerr geometry

Abstract

We derive the conditions for a non-equatorial eccentric bound orbit to exist around a Kerr black hole in two-parameter spaces: the energy, angular momentum of the test particle, spin of the black hole, and Carter's constant space (E, L, a, Q), and eccentricity, inverse-latus rectum space (e, μ, a, Q). These conditions distribute various kinds of bound orbits in different regions of the (E, L) and (e, μ) planes, depending on which pair of roots of the effective potential forms a bound orbit. We provide a prescription to select these parameters for bound orbits, which are useful inputs to study bound trajectory evolution in various astrophysical applications like simulations of gravitational wave emission from extreme-mass ratio inspirals, relativistic precession around black holes, and the study of gyroscope precession as a test of general relativity.

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