Derives a quantum Brownian motion master equation showing two thermal-like decoherence contributions for spatial superpositions along hyperbolic and circular stationary trajectories: modified field spectrum and differential time dilation.
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2026 2verdicts
UNVERDICTED 2representative citing papers
A minimum purification time for evaporating black holes is derived as scaling with M0^4/hbar^{3/2}, becoming exponential in initial area under a metastability assumption for Planck-scale holes, implying white-hole remnants.
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Decoherence of spatial superpositions along stationary worldlines
Derives a quantum Brownian motion master equation showing two thermal-like decoherence contributions for spatial superpositions along hyperbolic and circular stationary trajectories: modified field spectrum and differential time dilation.
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Minimum lifetime of a black hole
A minimum purification time for evaporating black holes is derived as scaling with M0^4/hbar^{3/2}, becoming exponential in initial area under a metastability assumption for Planck-scale holes, implying white-hole remnants.