Quantum Spectrodynamics (QSD)

Quantum Spectrodynamics (QSD) is a theoretical framework that derives Standard Model gauge couplings from a single structural input: the [5, 1, 3] perfect quantum error-correcting code. The code determines two graphs - the complete graph K₄ (bulk exchange interactions) and the cycle graph C₅ (geometric dynamics) - from which three fundamental constants emerge: Holographic bit density: H-0. 3em b₄ = 14 2 Geometric strain: = 380² Spectral bond: = ² From these, with zero free parameters and a single experimental input (the Planck mass), QSD derives: Symbol Observable QSD Prediction Experimental Value Agreement ^-1 Fine structure constant 137. 033 137. 036 22 ppm ₛ (MZ) Strong coupling at MZ 0. 11781 0. 1180 0. 0009 0. 16\% ²W Weak mixing angle 0. 23122 0. 23122 0. 00003 < 0. 01\% mH Higgs boson mass 126. 7 GeV 125. 25 GeV 1. 3\% Eₒₘ₍ Syndrome energy 28. 24 GeV 28 GeV* 0. 2\% *CMS dimuon anomaly (CMS-PAS-HIG-20-009) The framework makes falsifiable predictions testable at the LHC. Repository Structure The release contains the main preprint plus seven supplements, one technical note, computational validation code, and interactive visualizations: Theory Documents (LaTeX) - quantumₛpectrodynamics. tex - Main paper: complete framework, predictions, and falsification criteria- qsdₛ1formalₚroofsᵥ2. tex - Supplement S1: Formal proofs of all algebraic results (K₄ spectrum, S₄ representation theory, C₅ Laplacian, master theorems) - qsdₛ2ₑnergyₛcale. tex - Supplement S2: Energy scale derivation and dressing corrections- qsdₛ3ₗagrangian. tex - Supplement S3: The QSD Lagrangian (field-theoretic formulation) - qsdₛ4ᵣenormalizationᵥ2. tex - Supplement S4: Topological renormalization (terminating perturbation series, ^-1 = 137. 033 derivation) - qsdₛ5ₛyndromeₚrediction. tex - Supplement S5: Syndrome prediction (28 GeV) and proton stability- qsdₛ6ₛtringcorrespondence. tex - Supplement S6: Correspondence with string theory- qsdₛ7cosmologicalconstant. tex - Supplement S7: Computational thermodynamics (speculative) - qsdₜn1HbRedefinition. tex - Technical Note TN-1: Holographic bit density redefinition Shared LaTeX Infrastructure - qsdₚreamble. tex - Unified preamble (notation, macros, theorem environments) - qsdᵣeferences. bib - Consolidated bibliography for all documents Computational Validation (Python) - qsdconstants. py - Single source of truth for all QSD constants; reproduces every numerical prediction- qsdₛimulationₛuite. py - Full simulation suite: algebraic verification, coupling derivations, Monte Carlo error propagation- qsdₘontecarlo. py - Monte Carlo error propagation for all predictions- qsdqiskitₛuite. py - Qiskit quantum circuit simulations: [5, 1, 3] stabilizers, VQE ground state, syndrome extraction- qsdqiskitₐdditions. py - Extended Qiskit circuits: additional experiments and validation- qsdₛyndromeₚroduction. py - Syndrome production simulation (LHC phenomenology) Visualizations - qsdₐnimations. py - Animated visualizations (Matplotlib) - qsdᵥisualizations. py - Static visualization module- qsd₄simplex. html - Interactive 3D visualization: 4-simplex geometry (Three. js) - qsd₄simplexₙetwork. html - Interactive 3D visualization: code network structure (Three. js) - qsd₄simplexₛnapₘechanism. html - Interactive 3D visualization: snap mechanism animation (Three. js) Epistemic Transparency All claims are classified as Derived (mathematically proved from the [5, 1, 3] axiom), Constructed (ingredients derived, assembly physically motivated), or Open (plausible but not rigorous). This classification is maintained throughout all documents. How to Verify Run python qsdconstants. py to reproduce every numerical prediction from first principles. Run python qsdₛimulationₛuite. py for the full validation suite. Qiskit circuits require pip install qiskit.