A mirror-paired asymmetry in photon arrival times from opposite sides of the projected spin axis provides a direct general-relativistic timing signature of black hole spin.
and Press, William H
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Rotating black holes dressed with cored-NFW dark matter produce larger image shifts, brightness asymmetries, and ring-scale changes than Kerr or Einasto-dressed cases, with partial degeneracy to spin and inclination.
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A New Timing Signature of Black Hole Spin: Time-Delay Asymmetry in Kerr Accretion Flows
A mirror-paired asymmetry in photon arrival times from opposite sides of the projected spin axis provides a direct general-relativistic timing signature of black hole spin.
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Adaptive ray tracing, image diagnostics, and photon ring signatures of rotating dark-matter-dressed black holes
Rotating black holes dressed with cored-NFW dark matter produce larger image shifts, brightness asymmetries, and ring-scale changes than Kerr or Einasto-dressed cases, with partial degeneracy to spin and inclination.