Higgs Boson Mass predicted by the Four Color Theorem

TL;DR

This paper claims that the proof of the four color theorem provides a mathematical foundation for the Standard Model, enabling the calculation of particle properties and predicting the Higgs boson mass as approximately 126 GeV.

Contribution

It introduces a novel interpretation of the Standard Model based on the four color theorem, constructing a topological and algebraic particle frame that yields exact particle properties and predicts the Higgs mass.

Findings

Higgs boson mass predicted as approximately 126 GeV

Exact correspondence between the four color theorem proof and Standard Model particles

Calculation of Weinberg and Cabibbo angles from the particle frame

Abstract

We show that the mathematical proof of the four color theorem yields a perfect interpretation of the Standard Model of particle physics. The steps of the proof enable us to construct the t-Riemann surface and particle frame which forms the gauge. We specify well-defined rules to match the Standard Model in a one-to-one correspondence with the topological and algebraic structure of the particle frame. This correspondence is exact - it only allows the particles and force fields to have the observable properties of the Standard Model, giving us a Grand Unified Theory. In this paper, we concentrate on explicitly specifying the quarks, gauge vector bosons, the Standard Model scalar Higgs $H^{0}$ boson and the weak force field. Using all the specifications of our mathematical model, we show how to calculate the values of the Weinberg and Cabibbo angles on the particle frame. Finally, we present our prediction of the Higgs $H^{0}$ boson mass $M_{H^{0}} = 125.992 \simeq 126 GeV$, as a direct consequence of the proof of the four color theorem.