A testable radiative neutrino mass model without additional symmetries and Explanation for the $b \to s \ell^+ \ell^-$ anomaly

TL;DR

This paper introduces a one-loop radiative neutrino mass model using only two leptoquark-like bosons, explaining the $b o s \, ext{ll}$ anomaly while satisfying experimental constraints and predicting lepton-flavor violation signatures at the LHC.

Contribution

It presents a novel neutrino mass generation mechanism without extra symmetries and provides a unified explanation for flavor anomalies and collider signatures.

Findings

Explains $b o s \, ext{ll}$ anomaly without conflicts

Predicts lepton-flavor violating signals at the LHC

Calculates cross sections for leptoquark pair production

Abstract

We propose a one-loop radiative Majorana-type neutrino-mass matrix without any kind of additional symmetries by introducing two leptoquark-like bosons only. In this scenario, we show that the anomaly appearing in the process $b\to s\ell\bar\ell$ can be explained without any conflicts against various constraints such as lepton-flavor violations, flavor-changing neutral currents, oblique parameters $\Delta S,\ \Delta T$, and the Drell-Yan process. We make the predictions for the flavor-violating lepton-pair production ($e\mu$, $e\tau$, and $\mu\tau$) at the LHC, as well as the cross sections for pair production of these leptoquark-like bosons.