V2.79 Thermodynamic Uniqueness COMPLETE
Global Equilibrium Theorem (14-Parameter EFT Space)
Experiment V2.79: Global Equilibrium Theorem (14-Parameter EFT Space)
Status: COMPLETE
Goal
Map the 14-parameter EFT of dark energy parameter space and identify the thermodynamic equilibrium subspace. Compute the global equilibrium loss across the full parameter space to determine which EFT operators are compatible with d_iS = 0.
Key Result
The equilibrium condition d_iS = 0 constrains the 14-dimensional EFT space to a low-dimensional submanifold containing GR + cosmological constant. Observational constraints from Planck CMB data combined with the thermodynamic prior N < 10^{-3} produce compression factors of order 10^2 relative to observational constraints alone.
Modules
| Module | Purpose |
|---|---|
eft_mapping_and_bounds.py | EFT parameter mapping and observational bounds |
entanglement_equilibrium_holographic.py | Holographic entanglement equilibrium |
entanglement_equilibrium_local.py | Local entanglement equilibrium conditions |
global_equilibrium_loss.py | Global equilibrium loss function |
integration_exp21_to_27.py | Integration with previous experiments |
parameter_space_analysis.py | Parameter space analysis and visualization |
theory_space_eft.py | EFT theory space parameterization |