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On reflectivity of quantum black hole horizons

Naritaka Oshita, Qingwen Wang, Niayesh Afshordi

2020Journal of Cosmology and Astroparticle Physics63 citationsDOIOpen Access PDF

Abstract

We study the reflectivity of quantum black hole (BH) horizons using detailed balance and fluctuation-dissipation theorem, finding a universal flux reflectivity given by the Boltzmann factor ${\mathcal R} = \exp\left(-{\hbar |\omega| \over k T_{\rm H}}\right)$, where $\omega$ is frequency in the horizon frame and $T_{\rm H}$ is the Hawking temperature. This implies CP-symmetry (or $\bf{RP}^3$ topology) of the extended BH spacetime. We then briefly discuss related physical implications: We predict echoes in the ringdown of Kerr BHs, but they do not exhibit ergoregion instability. The viscosity in the membrane paradigm is modified to $\eta = \frac{c^3}{16\pi G}\tanh\left({\hbar |\omega| \over 4 k T_{\rm H}}\right)$, only approaching General Relativistic value at high frequencies.

Topics & Concepts

PhysicsBlack hole (networking)ReflectivityQuantum mechanicsBoltzmann constantHawking radiationQuantumBlack hole thermodynamicsViscosityQuantum electrodynamicsTheoretical physicsReflection (computer programming)Classical mechanicsCondensed matter physicsMicro black holeRotating black holeHorizonHawkingWhite holeValue (mathematics)Quantum fluctuationVirtual black holeSurface (topology)Sonic black holeExtremal black holeQuantum Electrodynamics and Casimir EffectBlack Holes and Theoretical PhysicsAstrophysical Phenomena and Observations
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