HVP Source-Access Reference Framework Version: 11. 0Concept DOI: 10. 5281/zenodo. 20732034Author: Ali AttarWebsite: quantumtraction. orgMain book anchor: Quantum Traction Theory: Main Book v10. 01 This paper collects the Quantum Traction Theory treatment of hadronic vacuum polarization into a single source-access reference framework. Version 11. 0 adds the first real public HEPData row execution to the earlier HVP source-access, row-population, access-covariance, scalar/proxy numerical-population, end-to-end closure-gate, Tier-A packet-readiness, BaBar retrieval-audit, and zero-trust handoff layers. The executed row is the BESIII 2015 ISR measurement \ e^+e^-^+^- (₅ₒₑ), 0. 6000. 900\ GeV. \ The public row packet is taken from HEPData record \ ins1385603, DOI=10. 17182/ hepdata. 73898. v4. \ The two machine-readable tables used are \ T₁=Bare Cross Section, DOI (T₁) =10. 17182/ hepdata. 73898. v4/t1, \ and \ T₂=Covariance Matrix of the Bare Cross Section, DOI (T₂) =10. 17182/ hepdata. 73898. v4/t2. \ The v11. 0 execution reads the row as a finite access packet: \ P ₁₄ₒ₈₈₈^ HEPData = (E, ⁰, ₒₓ₀ₓ, H ₑ₄₂₎ₑ₃, H_, H ₂₎ₕ, L ₑ₎ₖ), \ with \ N ₁₈₍=60, ₒₓ₀ₓ R^6060. \ The public retrieval/schema/hash gate closes as \ Q ₑ₄ₓₑ₈₄ₕ₄^ BESIII = q ₑ₄₂₎ₑ₃q ₓ䃑q ₓ䃒q ₇₀ₒ₇q ₒ₂₇₄₌₀ = 1. \ The leading-order HVP dispersive kernel is executed in the form \ a, ₃^, { LO} = 14³ ₒ_^s_{} K (s) \, ⁰ () (s) \, ds, \ equivalently \ a, ₃^, { LO} = (m₃) ² ₒ_^s_{} K (s) s²Rd (s) \, ds, \ where \ K (s) = 3s m_² ₀¹ x² (1-x) x²+ (1-x) s/m_²\, dx. \ Using the HEPData bin edges and midpoint quadrature over each \ (s\) -bin gives \ a, ₁₄ₒ₈₈₈^, { LO} (0. 600-0. 900) = 368. 1899267766510^-10. \ The propagated statistical uncertainty from the published statistical covariance matrix is \ ₒₓ₀ₓ^ ingest = 1. 4765758888010^-10. \ Against the BESIII quoted value \ a, ₁₄ₒ₈₈₈^, { LO} = (368. 21. 5 ₒₓ₀ₓ3. 3 ₒₘₒₓ) 10^-10, \ the scalar reproduction pull is \ z ₒ₂₀₋₀ₑ^ stat = -0. 00478578357. \ The v11. 0 master execution equation is \ E ₇ₕ^11. 0: (R ₒₑ₂^ QTT, P ₁₄ₒ₈₈₈^ HEPData) (H ₀₂₊₄ₓ, N ₁₈₍=60, a_=368. 18992677665, ₒₓ₀ₓ=1. 47657588880, z ₒ₂₀₋₀ₑ=-0. 00478578357, b[ Fₙ=0). \] The source firewall remains active: \ R ₒₑ₂^{ QTT P ₁₄ₒ₈₈₈} = ₀ P ₁₄ₒ₈₈₈ = nd P ₁₄ₒ₈₈₈ = 0. \ Version 11. 0 also proves the HVP Source Non-Identifiability Theorem. For a single experimental block \ (b\), a constant QTT access factor is observationally degenerate with the row normalization. If \ Fₙ^ QTT (s) =e^-n₀, ₀=15512, n\0, 2, 3, 4, 8\, \ then \ AbFₙ^ QTTR ₒₑ₂^ QTT (s) = AbR ₒₑ₂^ QTT (s), Ab=Abe^-n₀. \ Equivalently, \ b[ F^ QTT=0. \] Thus a one-row constant access factor is constraint-only. A green source-shape verdict requires either a nonconstant \ (F^ QTT (s) \), multiple rows with independent normalization priors, or a row whose normalization mode is fixed strongly enough before the QTT comparison. Status summary: GREEN: Σ-HVP-BESIII-HEPDATA-RETRIEVAL-CLOSED GREEN: Σ-HVP-FIRST-PUBLIC-RS-ROW-STAT-COV-EXECUTION-CLOSED GREEN: Σ-HVP-BESIII-PIIPI-SCALAR-REPRODUCTION-CLOSED GREEN: Σ-HVP-SINGLE-ROW-CONSTANT-ACCESS-NONIDENTIFIABILITY-CLOSED AMBER: Σ-HVP-FIRST-ROW-SOURCE-VERDICT-CONSTRAINT-ONLY YELLOW: Σ-HVP-SOURCE-NONCONSTANT-SHAPE-IDENTIFIABILITY-PENDING YELLOW: Σ-HVP-BESIII-FULL-SYSTEMATIC-COVARIANCE-POPULATION-PENDING YELLOW: Σ-HVP-END-TO-END-aₘu-NUMERICAL-GREEN-PENDING The strongest v11. 0 statement is: The first public HVP row executes; the first public HVP source verdict stays amber. That is the intended discipline of the framework. The pipeline is real, the scalar reproduction is exact to rounding, and the non-identifiability theorem blocks the temptation to call a normalization-degenerate one-row result a source confirmation. Raw packet hashes: recordᵢns1385603. json: 38e5a66bc829270edfe38fbea3a3cf2964dd75fd6747e7624d264c1afcd21b73 bareₓsdataₑndpoint. json: ac9b122f920e0af800b00136ceb9d5742a81a7a8921ff9da0f6f303ed938fb25 covdataₑndpoint. json: 257b5fa9046f9ca2ec499591b849947edb2c5718addb9fe5a3e7b6cf7810277f Release file hashes: Release package zip: 6b5e9fc44f70e0b1b728a8bce79bb702b8ec76e68199324170d9a11c3bdbafe2 PDF: 09a3dd5ee052a2dacef6646e76ab4dfc5fa3d755288200400e9f415b2bc30a9a LaTeX: 0fb6572ad3babaf28cae908e491fe00cf0ded332d6dc6579d146436135a9494a Results JSON: 3e156bdfe0c43ada20d08d6aaf053060a75dcc38ffe1c04a7ef8ceef2bd7b982 Certificate CSV: bffae2edf00489d0d2e2d19171458c4bc38ec7667a03f7dcc20659909d9363be Included files: PDF paper, Version 11. 0 LaTeX source Python execution script for the BESIII HEPData row JSON numerical certificate CSV numerical certificate HEPData record JSON Bare cross-section table JSON Statistical covariance table JSON Release notes Render audit Release package zip Related QTT anchors: Main book: Quantum Traction Theory: Main Book v10. 01 QTT website: quantumtraction. org QTT Observatory: quantumtraction. org/observatory Derivation Atlas: quantumtraction. org/derivation-atlas DOI Map: quantumtraction. org/doi-map Lexicon: quantumtraction. org/lexicon Two Universes: quantumtraction. org/two-universes External data anchors: BESIII HEPData record: ins1385603 HEPData DOI: 10. 17182/hepdata. 73898. v4 Bare Cross Section table: 10. 17182/hepdata. 73898. v4/t1 Covariance Matrix of the Bare Cross Section table: 10. 17182/hepdata. 73898. v4/t2 The claim is explicitly scoped. Version 11. 0 demonstrates that the QTT HVP row machinery can ingest and execute a real public HEPData row without moving the source. It does not claim that one BESIII row proves the whole HVP source, solves the full muon \ (g-2\) anomaly, or supplies the complete end-to-end \ (a_^ HVP\) value. Those remain future multi-row and full-covariance tasks.
Attar Ali (Tue,) studied this question.
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