Law from Bit VIII: The Interface Regime—Black Holes, Planck Scale, and Cosmological Transitions
Law from Bit VIII: The Interface Regime—Black Holes, Planck Scale, and Cosmological Transitions
Systems where conventional physics encounters difficulties—black holes, the Planck scale, and the Big Bang—share a common feature: neither General Relativity nor Quantum Mechanics alone provides a complete description. In the Law from Bit framework (where GR corresponds to the α-dominant regime and QM to the λ-dominant regime, connected by α + λ + 1/2 = 0), we argue these systems represent the interface regime where α ≈ λ. Black holes exhibit both geometric horizons (α-mode) and quantum scrambling (λ-mode). The information paradox is reframed as mode redistribution. The Planck scale is an interface by definition. The Big Bang is reinterpreted as a massive λ → α transition. This paper is interpretive and speculative—it offers frameworks, not derivations.
Big Bang, interface regime, quantum gravity, black holes, Planck scale, Law from Bit, information
Big Bang, interface regime, quantum gravity, black holes, Planck scale, Law from Bit, information
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