On the reactions involving neutrinos and hidden mass particles in hypercolor model

TL;DR

This paper explores a hypercolor extension of the Standard Model, proposing stable hyperparticles as Dark Matter candidates and analyzing cosmic ray interactions for potential detection methods.

Contribution

It introduces a minimal hypercolor model with stable hypermesons and hyperbaryons, providing mass estimations and analyzing cosmic ray scattering processes for Dark Matter detection.

Findings

Hypermesons and hyperbaryons are stable and potential Dark Matter candidates.

Mass estimations are derived from Dark Matter annihilation kinetics.

Cosmic ray scattering processes are analyzed for Dark Matter detection prospects.

Abstract

We present and discuss some basic elements of the Standard Model hypercolor extension. Appearance of a set of hyperquarks bound states is resulted from $\sigma-$model using; due to specific symmetries of this minimal extension, there arise stable hypermesons and hyperbaryons which are interpreted as the Dark Matter candidates. Knowing estimations of their masses from analysis of Dark Matter annihilation kinetics, some processes of high energy cosmic rays scattering off these particles are analyzed for the search of Dark Matter manifestations.