The Lorentzian CSK functional acts as a chiral sphaleron that dynamically isotropizes closed de Sitter cosmologies through Gaussian suppression of anisotropic perturbations.
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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.
Dark matter halos suppress Hawking temperature and emission rates in regular black holes while enabling a range of horizon radii with positive specific heat capacity and a Davies-type phase transition.
The primordial dark matter scale suppresses Hawking temperature and spectral energy emission rate relative to Schwarzschild while the heat capacity stays negative and the sparsity parameter receives a small negative correction.
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A Quantum Gravitational Mechanism for Isotropization of de Sitter Cosmologies
The Lorentzian CSK functional acts as a chiral sphaleron that dynamically isotropizes closed de Sitter cosmologies through Gaussian suppression of anisotropic perturbations.