Addressing the RD(*) anomalies with an S1 leptoquark from SO(10) grand unification

Abstract

Motivated by the RD(*) anomalies, we investigate an SO(10) grand unification scenario where a charge -1/3 scalar leptoquark (S1) remains as the only new physics candidate at the TeV scale. This leptoquark along with the Standard Model (SM) Higgs doublet originates from the same 10-dimensional real scalar multiplet in the SO(10) grand unification framework taking its mass close to the electroweak scale. We explicitly show how the gauge coupling unification is achieved with only one intermediate symmetry-breaking scale at which the Pati-Salam gauge group is broken into the SM group. We investigate the phenomenological implications of our scenario and show that an S1 with a specific Yukawa texture can explain the RD(*) anomalies. We perform a multiparameter scan considering the relevant flavour constraints on RD(*), FL(D*), Pτ(D*) and RK(*) as well as the constraint coming from the Zττ decay and the latest ττ resonance search data at the LHC. Our analysis shows that a single leptoquark solution to the observed RD(*) anomalies with S1 is still a viable solution.