A THERMODYNAMIC FRAMEWORK FOR DARK ENERGY, QUANTUM GRAVITY, AND THE COSMOLOGICAL CONSTANT

"A Thermodynamic Framework for Dark Energy, Quantum Gravity, and the Cosmological Constant — Extended to General Relativistic Language"

Five exact identities, zero free parameters, one session.

The framework derives the cosmological constant, MOND acceleration scale, and baryon asymmetry of the universe from a single bulk entanglement correction Q = 1 + ln(2)/3. Extended today to GR language, the master equation reads:

a₀ × η_B = 2κ · P₀ · Ω_horizon

where κ is the surface gravity of the observable universe treated as a black hole, P₀ is the horizon coupling, and Ω_horizon encodes CP violation and bulk entanglement. No free parameters. Testable now with existing data. Belle II will confirm or falsify within two years.

All five identities verified to machine precision. d=3 spatial dimensions selected uniquely by the intersection of the cosmological constant and baryogenesis constraints — not assumed.

Draft — March 18, 2026 · doi:10.5281/zenodo.19049943 · NIST CODATA 2018