Emergent Gravity from Vacuum Thermodynamics: Unifying Dimensional Flow and Topological Protection

Abstract

This manuscript presents a unified theoretical framework proposing that spacetime emerges as a topological phase of a quantum vacuum liquid. By synthesizing the Klinkhamer-Volovik q-theory of vacuum thermodynamics with the topological Fermi-point scenario, we demonstrate that General Relativity and the Standard Model emerge as low-energy collective excitations of a trans-Planckian substrate. We rigorously apply the Atiyah-Bott-Shapiro construction to momentum space topology, identifying the topological invariant N3 as the protector of emergent Lorentz invariance. This topological stability suppresses linear (n = 1) Lorentz Invariance Violation (LIV), rendering the theory consistent with stringent Fermi-LAT constraints, while allowing for quadratic (n = 2) corrections characteristic of the ultraviolet regime. We bridge UV and infrared domains through dynamical flow of the spectral dimension dS, from dS = 2 (UV, z = 3) to dS = 4 (IR, z = 1), via a ”geometrogenesis” phase transition. We provide a thermodynamic solution to the Cosmological Constant Problem: the divergent zero-point energy is exactly cancelled in equilibrium by the Gibbs-Duhem relation. The observed Dark Energy is identified as vacuum relaxation from a perturbed state, with Λ(H) ∝ H or H2. This framework resolves the conflict between quantum mechanics and gravity, replacing geometric quantization with topological hydrodynamics of the quantum vacuum.

Layman's Summary (Abstract for Friends)

The Universe as a Liquid Crystal Instead of viewing space as an empty box containing matter, this theory proposes that the vacuum is a physical, superfluid liquid. We—stars, planets, and people—are essentially complex vortices or "bubbles" within this fundamental ocean.

From Chaos to Order (2D to 4D) Just as water freezes into ice, the early Universe underwent a phase transition. At the Planck scale (high energies), space was chaotic and effectively 2-dimensional. As the Universe cooled, it "crystallized" into the stable 4-dimensional geometry (3 spatial dimensions + time) that we inhabit today.

Gravity is Quantum Entanglement What holds this cosmic structure together? The theory implies that gravity is not merely a force, but a manifestation of quantum entanglement. Space itself is "stitched" together by billions of quantum connections between particles. Gravity is the web of information that connects every part of the Universe, preventing space from dissolving back into chaos.

The Topological "Knot" Why doesn't our Universe collapse? The theory suggests that our spacetime is locked in a specific "topological phase," similar to a complex knot on a rope. This mathematical "knot" protects the laws of physics, such as the speed of light, without requiring delicate fine-tuning.

Solving the Dark Energy Mystery This framework also addresses why the vacuum doesn't crush us with immense energy. Like a deep-sea fish that feels no pressure because its internal pressure matches the ocean's, our vacuum is in thermodynamic equilibrium. What we observe as "Dark Energy" is simply the vacuum liquid slowly relaxing and settling into a balanced state.