Holographic naturalness embedded in pre-geometric gravity generates the cosmological constant from a Higgs-like VEV tied to de Sitter entropy, stabilizing it via entropic suppression while predicting new hairon particles.
Duque, and Dennis Hartmann
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Bounded polymerization in asymmetric LQG-inspired bounce models makes shell-crossing singularities unavoidable for inhomogeneous dust collapse, whereas unbounded polymerization in non-bouncing models permits avoidance for suitable decreasing initial profiles.
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$\mathcal{H}$olographic $\mathcal{N}$aturalness and Pre-Geometric Gravity
Holographic naturalness embedded in pre-geometric gravity generates the cosmological constant from a Higgs-like VEV tied to de Sitter entropy, stabilizing it via entropic suppression while predicting new hairon particles.
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Formation of shell-crossing singularities in effective gravitational collapse models with bounded and unbounded polymerizations
Bounded polymerization in asymmetric LQG-inspired bounce models makes shell-crossing singularities unavoidable for inhomogeneous dust collapse, whereas unbounded polymerization in non-bouncing models permits avoidance for suitable decreasing initial profiles.