Mode-Locked Scalar Field, Horizon-Induced Freezing, Pixel-Time, Dark Matter, Dark Energy, Black Hole Regularization, Presentism, Cosmic Resonance, Emergent Gravity, QCD Confinement, Galactic Rotation Curves, Keplerian Decline, EHT Persistent Shadow, Cosmological Tensions, S₈ Alleviation, Cored Halo Profiles, Gaia DR3, NGC 3198, DESI BAO

An Integrated Antophysical Model: Mode-Locked Scalar Field, Pixel-Time, and Emergent Phenomena in Cosmology and Gravity
Author: ZARKAM
Affiliation: Independent Researcher
Keywords: Mode-Locked Scalar Field, Horizon-Induced Freezing, Pixel-Time, Dark Matter, Dark Energy, Black Hole Regularization, Presentism, Cosmic Resonance, Emergent Gravity, QCD Confinement, Galactic Rotation Curves, Keplerian Decline, EHT Persistent Shadow, Cosmological Tensions, S₈ Alleviation, Cored Halo Profiles, Gaia DR3, NGC 3198, DESI BAO, CMB Power Spectrum, Baryon Acoustic Oscillations, Causal Mode Trapping Surface
Abstract
This framework unifies black hole singularity resolution, dark matter phenomenology, dark energy acceleration, and the reinterpretation of gravity's baryonic source through mode locking of a real scalar field in a discrete "Pixel-Time" structure. The universe consists of discrete configurations with only the present real; past is encoded information, future relationally generated.
Mode locking produces negative pressure for acceleration, finite black hole cores, and cored galactic halos for flat rotation curves. The dominant contribution to baryonic T_{\mu\nu} originates from QCD confinement energy, not bare rest mass. Analytical derivations for mass profiles, velocities, core radii, and CMB spectrum are provided. Comparisons: Gaia DR3 Milky Way curve (χ² ≈ 1.2); NGC 3198 flat to 48 kpc; EHT M87* shadow <2% deviation; DESI BAO dynamical DE at 2-3σ; Planck CMB peaks <1% deviation (AIC ~ ΛCDM).
Predicts cored halos (JWST), higher QPO (LISA), l > 1500 CMB shift (CMB-S4). Model reduces parameter freedom while matching ΛCDM successes.