Copy-Horizon Cosmology from Quantum Information Copy Time: An Operational Infrared Cutoff for Holographic Dark Energy with Testable Signatures
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We present a strict, non-circular formulation of a “copy-horizon” infrared (IR) scale defined operationally from a quantum-information copy time by the single criterion . The definition requires only mild locality/monotonicity assumptions and does not postulate an a priori cosmological IR cutoff (such as the future event horizon). We then combine this operational IR scale with the Cohen–Kaplan–Nelson (CKN) gravitational collapse bound to obtain the energy-density scaling as a consistency constraint, and we formulate “saturation” as a falsifiable mechanism with a severe inequality . We derive the minimal background consequence and show how a hydrodynamic realization of yields rigid consistency relations linking expansion, growth, and transient time-of-flight observables.