Azimuthal polarization of polarized top quark in noncommutative standard model

TL;DR

This paper explores how noncommutative space-time modifies the azimuthal polarized decay rate and spin analyzing power of polarized top quarks, providing potential signals for new physics beyond the Standard Model.

Contribution

It calculates the effects of noncommutative space-time on top quark decay properties, revealing corrections to azimuthal decay rates and energy spectra not present in the Standard Model.

Findings

Noncommutative space-time introduces non-zero azimuthal polarized decay rates.

Energy spectrum of charged leptons shows deviations due to noncommutativity.

Total differential decay rate varies with azimuthal angle differently than in SM.

Abstract

Top quark decays before hadronization and its information transfer to final products. The top quark decays via the weak interaction, hence the azimuthal polarized decay rate is zero in the leading order of SM. Therefore the study of top quark could be taken into consideration as useful tools to search for new physics. In this paper, we calculate the decay of polarized top quark in the framework of the noncommutative standard model. We investigate the contribution of noncommutative space-time on the azimuthal polarized decay rate and spin analyzing power. Also we depict the energy spectrum for the charged lepton and the variation of the total differential decay rate with respect to the azimuthal angle which receive some correction in noncommutative space-time.