Scientific Publications on the Common-Scheme
This section compiles the synthesis documents of the Common-Scheme theory that have been published on open archives like Zenodo, to ensure their priority, permanence, and referencing via a Digital Object Identifier (DOI).
Note: The abstracts are updated to reflect the final dynamic version of the theory.
1. The Common-Scheme: A Deductive Physical Theory for the Constants of the Standard Model
- Author: BESSE N.
- Publication Date: September 2, 2025
- DOI: 10.5281/zenodo.17031877
Abstract (updated): This synthesis article presents the complete demonstration of the physical theory of the Common-Scheme. It shows how a unified Lagrangian (L_SC), based on a single physical postulate, allows for the calculation of the mass laws of the 12 fermions and bosons, as well as the values of the fundamental constants (c, α, α_s), via the methods of quantum field theory.
2. The Higgs Boson Mass as a Calculated Consequence of Electroweak Dynamics
- Author: BESSE N.
- Publication Date: September 1, 2025
- DOI: 10.5281/zenodo.17029272
Abstract (updated): This document presents the detailed calculation of the Higgs boson mass from L_SC. It demonstrates that the Higgs mass is not a free parameter, but a consequence of the interaction between the geometric (π) and informational (Φ) sectors of the vacuum, constrained by electroweak dynamics (M_W). The resulting formula predicts the Higgs mass with a precision of 0.0088%.
3. The Enantiomorphic Symmetry Principle: A Dynamic Unification of the Higgs Mass and the Speed of Light
- Author: BESSE N.
- Publication Date: September 3, 2025
- DOI: 10.5281/zenodo.17038418
Abstract (updated): This document resolves the residual anomaly in the calculation of the Higgs mass and the speed of light. It demonstrates that L_SC possesses a hidden symmetry, governed by a constant δ. This constant, itself calculated from the fundamental parameters of the theory, ensures the coherence of the Lagrangian and dynamically links the mass mechanism to the causal structure of spacetime.