Quantitative Prediction: CMB μ-Distortion Amplitude from Phase Transition Residual Friction Inverse Einstein Protocol (IEP) Diego Jose Merizalde Los Angeles, CA — March 15, 2026 Abstract The Inverse Einstein Protocol (IEP) reinterprets the cosmic microwave background (CMB) as residual friction from a synchronized first-order Phase Transition across the c² inertial threshold, rather than the cooled aftermath of a hot Big Bang explosion. The thermodynamic cost of localization is fixed at W ≈ E/2 — half the incoming non-local energy potential dissipated as irreversible latent heat during condensation into the ordered primordial phase. This energy injection into the early photon bath produces chemical potential (μ-type) spectral distortions. The IEP predicts: μ ≈ 10⁻⁷ to 10⁻⁶ Derivation Sketch Latent heat release: W ≈ E/2 (Axiom 2: fixed minimum cost of threshold crossing from zero-entropy non-local state to localized phase). Energy distributed over redshifted CMB photon bath (n_γ ∝ T³, current T = 2. 725 K). μ-distortion amplitude scales as fractional energy injection ΔU/U ≈ μ/1. 4 (standard μ-regime relation). Scaling from W ≈ E/2 over cosmic expansion and photon entropy dilution yields order-of-magnitude μ ~ 10⁻⁷ to 10⁻⁶ (full calculation in forthcoming IEP book, Chapter 8). Distinction from ΛCDM Standard ΛCDM predicts μ ~ 10⁻⁸ from secondary processes (e. g. , Silk damping, Compton y-distortions; Chluba et al. 2012; Khatri et al. 2012). The IEP's primordial threshold friction is a distinct, higher-amplitude source independent of small-scale damping. Testability subsequent records DOI 10. 5281/zenodo. your list). Related lab analog: Truong & Teboul (2025), Physics of Fluids 37, 113111, DOI: 10. 1063/5. 0301017. Keywords: CMB spectral distortions, μ-distortion, Phase Transition, Inverse Einstein Protocol, PIXIE, Voyage 2050, cosmology prediction License: CC-BY-4. 0 (recommended for open access)
Diego Jose Merizalde (Mon,) studied this question.