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Main Authors: Layden, Nicholas, Dey, Dipanjan, Coley, Alan
Format: Preprint
Published: 2026
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Online Access:https://arxiv.org/abs/2604.23389
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author Layden, Nicholas
Dey, Dipanjan
Coley, Alan
author_facet Layden, Nicholas
Dey, Dipanjan
Coley, Alan
contents We present an invariant characterization of the Kerr spacetime, and utilize the invariant structure of the spacetime to derive a function whose zeros identify a special family of null geodesics. Each member of this family is tangent to every photon surface in the Kerr photon region, offering a method of invariantly characterizing photon surfaces in axially symmetric spacetimes and thereby a providing a computational tool for efficiently computing the geodesic equations for any part of the photon region. The invariant that identifies all of the spherical photon orbits is parameterized by a Lorentz parameter, where the parameter is effectively an inclination angle of the spherical photon orbits through the equatorial plane. We also show how the invariant determines the constants of motion for all spherical orbits in the photon region. Finally, we briefly derive invariants which identify the other geometrically important surfaces such as the ergosurfaces and local horizons.
format Preprint
id arxiv_https___arxiv_org_abs_2604_23389
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle A Complete Invariant Analysis of the Kerr Spacetime and its Photon Region
Layden, Nicholas
Dey, Dipanjan
Coley, Alan
General Relativity and Quantum Cosmology
High Energy Physics - Theory
We present an invariant characterization of the Kerr spacetime, and utilize the invariant structure of the spacetime to derive a function whose zeros identify a special family of null geodesics. Each member of this family is tangent to every photon surface in the Kerr photon region, offering a method of invariantly characterizing photon surfaces in axially symmetric spacetimes and thereby a providing a computational tool for efficiently computing the geodesic equations for any part of the photon region. The invariant that identifies all of the spherical photon orbits is parameterized by a Lorentz parameter, where the parameter is effectively an inclination angle of the spherical photon orbits through the equatorial plane. We also show how the invariant determines the constants of motion for all spherical orbits in the photon region. Finally, we briefly derive invariants which identify the other geometrically important surfaces such as the ergosurfaces and local horizons.
title A Complete Invariant Analysis of the Kerr Spacetime and its Photon Region
topic General Relativity and Quantum Cosmology
High Energy Physics - Theory
url https://arxiv.org/abs/2604.23389