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| フォーマット: | Recurso digital |
| 言語: | 英語 |
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Zenodo
2026
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| オンライン・アクセス: | https://doi.org/10.5281/zenodo.19915134 |
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| _version_ | 1866901255537819648 |
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| author | Krause, Thomas |
| author_facet | Krause, Thomas |
| contents | <div class="n6owBd awi2gc">This paper proposes a parameter-free, closed-form algebraic expression for the dimensionless Higgs self-coupling, lambda_H = K1 + phi^-5, derived from the representation theory of the icosahedral symmetry group A5. The constant K1 is defined as a canonical normalization of a four-dimensional representation channel, weighted by the inverse fine-structure integer 137, while phi^-5 represents the minimal self-similar scale of the five-dimensional representation slot.</div> <div class="n6owBd awi2gc"> </div> <div class="n6owBd awi2gc">Using the measured electroweak vacuum expectation value v = 246.220 GeV, the framework yields a precise prediction for the Higgs boson mass of mH = 125.112 GeV. This result is consistent with the current world average (mH = 125.20 +/- 0.11 GeV) within 0.80 standard deviations.</div> <div class="n6owBd awi2gc"> </div> <div class="n6owBd awi2gc">Furthermore, the paper derives a corollary for the top-to-Higgs mass ratio as the irrational number phi^(2/3) approx 1.37824, which matches experimental data to within 0.008 percent.</div> <div class="n6owBd awi2gc"> </div> <div class="n6owBd awi2gc">The construction is motivated by the requirement of a non-solvable simple internal symmetry group and provides a rigorous falsification protocol based on future collider measurements of Higgs-pair production. A self-contained Python script is provided to verify all numerical claims from first principles.</div> <div class="Fsg96"> </div> |
| format | Recurso digital |
| id | zenodo_https___doi_org_10_5281_zenodo_19915134 |
| institution | Zenodo |
| language | eng |
| publishDate | 2026 |
| publisher | Zenodo |
| record_format | zenodo |
| spellingShingle | An Algebraic Closed Form for the Higgs Self-Coupling from Icosahedral Symmetry Krause, Thomas (4-(m-Chlorophenylcarbamoyloxy)-2-butynyl)trimethylammonium Chloride Higgs Boson Higgs Self-Coupling Icosahedral Symmetry A5 Group Particle Physics Standard Model Fine-Structure Constant Top Quark Mass Mass Ratios Theoretical Physics Golden Ratio Phi Parameter-free Prediction Vacuum Stability <div class="n6owBd awi2gc">This paper proposes a parameter-free, closed-form algebraic expression for the dimensionless Higgs self-coupling, lambda_H = K1 + phi^-5, derived from the representation theory of the icosahedral symmetry group A5. The constant K1 is defined as a canonical normalization of a four-dimensional representation channel, weighted by the inverse fine-structure integer 137, while phi^-5 represents the minimal self-similar scale of the five-dimensional representation slot.</div> <div class="n6owBd awi2gc"> </div> <div class="n6owBd awi2gc">Using the measured electroweak vacuum expectation value v = 246.220 GeV, the framework yields a precise prediction for the Higgs boson mass of mH = 125.112 GeV. This result is consistent with the current world average (mH = 125.20 +/- 0.11 GeV) within 0.80 standard deviations.</div> <div class="n6owBd awi2gc"> </div> <div class="n6owBd awi2gc">Furthermore, the paper derives a corollary for the top-to-Higgs mass ratio as the irrational number phi^(2/3) approx 1.37824, which matches experimental data to within 0.008 percent.</div> <div class="n6owBd awi2gc"> </div> <div class="n6owBd awi2gc">The construction is motivated by the requirement of a non-solvable simple internal symmetry group and provides a rigorous falsification protocol based on future collider measurements of Higgs-pair production. A self-contained Python script is provided to verify all numerical claims from first principles.</div> <div class="Fsg96"> </div> |
| title | An Algebraic Closed Form for the Higgs Self-Coupling from Icosahedral Symmetry |
| topic | (4-(m-Chlorophenylcarbamoyloxy)-2-butynyl)trimethylammonium Chloride Higgs Boson Higgs Self-Coupling Icosahedral Symmetry A5 Group Particle Physics Standard Model Fine-Structure Constant Top Quark Mass Mass Ratios Theoretical Physics Golden Ratio Phi Parameter-free Prediction Vacuum Stability |
| url | https://doi.org/10.5281/zenodo.19915134 |