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4 Pith papers citing it

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hep-th 4

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2026 3 2025 1

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UNVERDICTED 4

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representative citing papers

On Black Holes Surrounded by Radiation: I. Classical Considerations

hep-th · 2026-06-29 · unverdicted · novelty 6.0

Presents classical GR solutions for black holes enveloped by ultra-relativistic orbiting particle shells that extend the photon sphere to arbitrary depth while remaining optically indistinguishable from standard black holes.

Covariant phase space and the semi-classical Einstein equation

hep-th · 2025-10-22 · unverdicted · novelty 6.0

A semi-classical symplectic two-form is defined as the sum of the gravitational symplectic form and the Berry curvature of the quantum matter state; it is shown to be independent of the Cauchy slice and to satisfy a quantum generalization of the Hollands-Iyer-Wald identity.

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Showing 4 of 4 citing papers after filters.

  • When AdS$_3$ Grows Hair: Boson Stars, Black Holes, and Double-Trace Deformations hep-th · 2026-05-05 · unverdicted · none · ref 87

    In AdS3 gravity with double-trace scalar boundary conditions, zero-frequency boson stars are the true ground state below the instability threshold, and hairy black holes carry higher entropy than BTZ at fixed mass and angular momentum.

  • On Black Holes Surrounded by Radiation: I. Classical Considerations hep-th · 2026-06-29 · unverdicted · none · ref 54

    Presents classical GR solutions for black holes enveloped by ultra-relativistic orbiting particle shells that extend the photon sphere to arbitrary depth while remaining optically indistinguishable from standard black holes.

  • Covariant phase space and the semi-classical Einstein equation hep-th · 2025-10-22 · unverdicted · none · ref 37

    A semi-classical symplectic two-form is defined as the sum of the gravitational symplectic form and the Berry curvature of the quantum matter state; it is shown to be independent of the Cauchy slice and to satisfy a quantum generalization of the Hollands-Iyer-Wald identity.

  • On Black Holes Surrounded by Radiation II: Thermodynamics hep-th · 2026-06-29 · unverdicted · none · ref 32

    Hillingar black holes thermodynamically mimic ordinary black holes of mass M, sharing temperature and entropy under thermal equilibrium.