What question did this study set out to answer?

This research aims to present a unified model of spacetime, gravity, and cosmological dynamics through a specific quantum substrate.

February 8, 2026Open Access

The H– Hbar Active Vacuum: A Unified Critical Framework for Emergent Spacetime, Gravity, and Cosmological Dynamics

Key Points

This research aims to present a unified model of spacetime, gravity, and cosmological dynamics through a specific quantum substrate.
Proposed a model of correlated hydrogen-antihydrogen dipolar pairs as a vacuum substrate.
Derived the Einstein-Hilbert action from the substrate's free energy functional.
Explained the Hubble and S8 tensions using scale-dependent gravitational coupling.
Identified universal critical exponents related to the vacuum dynamics.
Established dark energy's natural origin as the residual enthalpy of the condensate.
Provided six falsifiable predictions for cosmological surveys between 2026 and 2030.

Abstract

Abstract We propose that the physical vacuum is a near-critical, dynamically coherent condensate of correlated hydrogen–antihydrogen (H–Ḣ) dipolar pairs forming a percolating quantum substrate. Spacetime, gravity, and cosmological evolution arise as macroscopic thermodynamic and elastic responses of this medium. The Einstein–Hilbert action emerges as the long-wavelength limit of the free energy functional of the substrate. The framework resolves the Hubble and S₈ tensions through scale-dependent gravitational coupling and provides a natural origin for dark energy as residual condensate enthalpy. We link cosmological observables to universal critical exponents (Df 2. 86, 0. 88, ₄₅₅ 0. 14) and provide six falsifiable predictions for 2026-2030 surveys, including the rigid dark-energy relation wₐ = 6 (1 + w₀) and a specific S₈ (z) evolution.

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