The contraction hypothesis of the gauge group of the Standard Model and LHC experimental data

TL;DR

This paper investigates how a contraction hypothesis of the Standard Model's gauge group affects Higgs boson production at high temperatures, comparing theoretical predictions with LHC data across multiple energies.

Contribution

It introduces a contraction hypothesis of the gauge group and analyzes its impact on Higgs production processes, aligning predictions with experimental LHC results.

Findings

The contraction hypothesis does not contradict LHC Higgs data.

The process splits into channels based on color contributions in quark loops.

Cross sections depend on temperature and are consistent with observed data.

Abstract

Within the framework of the contraction hypothesis of the gauge group of the Standard Model the behavior of the amplitude of the dominant Higgs boson production process in the four-lepton decay with increasing temperature $T$ is analyzed. It is shown that the modified process breaks down into a number of channels depending on the contribution of the color components in the loop of virtual quarks, leading to the creation of the Higgs boson. The dependence on $T$ of the cross section of each channel is found. Comparison with LHC data on Higgs boson creation cross sections at energies (temperatures) of 7, 8, 13, and 14 TeV showed that the hypothesis about the contraction of the gauge group of the Standard Model does not contradict these data.