AI Physics Review logo AI Physics Review banner
Structural audits of theoretical research.
Constraint-based evaluation, published verbatim.

Project Articles

Editorial and explanatory articles describing the research environment and methodological principles behind AI Physics Review.

  1. Leveling the Playing Field in Theoretical Research
    Lawrence, William Andrew — March 2026
AI Physics Review Volume 1 Issue S1 Cover
Evaluation Baseline
Model: GPT-5.3
Eval. Protocol: 1.74

Volume 1 · Issue S1 – March 2026

Contents

  1. Holographic quantum error-correcting codes: Toy models for the bulk/boundary correspondence
    Pastawski, Fernando; Yoshida, Beni; Harlow, Daniel; Preskill, John
  1. Geometric Unity: Author’s Working Draft
    Weinstein, Eric R.
  2. Quantum Einstein Gravity
    Reuter, Martin; Saueressig, Frank
  3. Cool horizons for entangled black holes
    Maldacena, Juan; Susskind, Leonard
  4. Cosmological Polytopes and the Wavefunction of the Universe
    Arkani-Hamed, Nima; Benincasa, Paolo; Postnikov, Alexander
  5. Emergent Gravity and the Dark Universe
    Verlinde, Erik
  6. Theory of Dark Matter Superfluidity
    Berezhiani, Lasha; Khoury, Justin
  7. Complexity Equals Action
    Brown, Adam R.; Roberts, Daniel A.; Susskind, Leonard; Swingle, Brian; Zhao, Ying
AI Physics Review Volume 1 Issue 1 Cover
Evaluation Baseline
Model: GPT-5.2
Eval. Protocol: 1.74

Volume 1 · Issue 1 – March 2026

Citation: AI Physics Review. Foundations and Unification. Vol. 1, Issue 1 (March 2026). Compression Theory Institute.
DOI: 10.5281/zenodo.18912947

Contents

Featured Legacy Paper:
  1. The Quantum Theory of the Electron
    Dirac, P. A. M.
Contemporary Evaluations:
  1. Quantum–Kinetic Dark Energy (QKDE): An effective dark energy framework with a covariantly completed time-dependent scalar kinetic normalization
    Brown, Daniel
  2. Entropic Scalar EFT: Entanglement-Entropy Origins of Gravity, Mass, Time, and Cosmic Structure
    Chinitz, Jacob
  3. Null Structure from Cyclic Constraints in C3: A Minimalist Model of Directional Geometry from Algebraic Coupling
    Hentsch, Patrick
  4. General Mechanics
    Poyau, Reginald
  5. Spectral Gaps in Four Dimensions: Constructive Proof of the SU(3) Yang–Mills Mass Gap From Reflection Positivity and Chessboards to OS Reconstruction
    Reeves, Keefe
  6. Vacuum Information Density as the Fundamental Geometric Scalar: Unified Information-Density Theory (UIDT v3.7.3)
    Rietz, Philipp
  7. ONE AXIOM FOUNDATION: Primordial Symmetry & Geometric Constants — Complete Derivation of G = S4 × Z₂³ via REA-SAFT Duality
    Spychalski, Robert
  8. A 3D Shannon–Nyquist Measurement Geometry Foundation: Edge Transport and Closed-Plaquette Response: One Locked Invariant
    Stieger, G.
AI Physics Review Volume 1 Issue 0 Cover
Evaluation Baseline
Model: GPT-5.2
Eval. Protocol: 1.74

Volume 1 · Issue 0 – March 2026

Citation: AI Physics Review. The Legacy Papers. Vol. 1, Issue 0 (March 2026). Compression Theory Institute.
DOI: 10.5281/zenodo.18913175

Contents

  1. Zur Elektrodynamik bewegter Körper – On the Electrodynamics of Moving Bodies (Special Relativity)
    Einstein, Albert
  1. “Relative State” Formulation of Quantum Mechanics
    Everett, Hugh III
  2. Particle Creation by Black Holes
    Hawking, S. W.
  3. Inhomogeneous Electron Gas
    Hohenberg, P.; Kohn, W.
  4. The Large N Limit of Superconformal Field Theories and Supergravity
    Maldacena, Juan
  5. A Dynamical Theory of the Electromagnetic Field
    Maxwell, James Clerk
  6. Quantisierung als Eigenwertproblem (Quantization as an Eigenvalue Problem)
    Schrödinger, Erwin
  7. A Model of Leptons
    Weinberg, Steven
Scroll to Top