Scalar Quarks at the Large Hadron Collider

TL;DR

This paper explores the theoretical and experimental evidence for scalar quarks at the LHC, proposing an extension to the Standard Model that suggests a novel fermion-boson symmetry distinct from supersymmetry.

Contribution

It introduces the concept of scalar quarks and leptons into the Standard Model based on recent LHC data, proposing a new form of fermion-boson symmetry.

Findings

Evidence from ATLAS and CMS supports scalar quarks.

Proposed extension of the Standard Model includes scalar particles.

Fermion-boson symmetry differs from supersymmetry.

Abstract

The properties of scalar quarks are studied, especially the formation of fermionic mesons with an anti-quark. On the basis of this theoretical investigation together with the experimental data, both from last year and from this year, of the ATLAS Collaboration and the CMS Collaboration at the Large Hadron Collider, it is proposed that the standard model of Glashow, Weinberg, and Salam should be augmented by scalar quarks, scalar leptons, and additional fermions. If these scalar quarks and scalar leptons are in one-to-one correspondence with the ordinary quarks and ordinary leptons, either in number or in the degrees of freedom, then there may be a fermion-boson symmetry. The fermion-boson symmetry obtained this way is of a different nature from that of supersymmetry.