Abstract
In this paper, we show an explicit way to realize a TeV-scale vector leptoquark from the Pati-Salam (PS) unification with extra vectorlike families. The leptoquark mass is constrained to be heavier than PeV-scale by the measurement of a flavor violating kaon decay, $K_L \to \mu e$, in conventional models. This strong constraint can be avoided by introducing vectorlike families consistently with the quark and lepton masses and CKM and PMNS matrices. The other flavor violating processes are also suppressed. In this model, the vector leptoquark can be sufficiently light to explain the recent $b\to s\mu\mu$ anomaly, while the $b\to c\tau\nu$ anomaly is difficult to be explained due to the strong constraints from the $Z^\prime$ boson and vectorlike quark searches at the LHC. When the $b\to s\mu\mu$ anomaly is explained, we show that $\mathcal{O}({0.2})$ % tuning is required in the fermion matrix, the future experiments in $\mu\to e\gamma$ and $\mu$-$e$ conversions will cover the most available parameter space, and sizable neutral meson mixings, induced by the extra Higgs doublets, are unavoidable.
Highlights
A leptoquark is a hypothetical boson that carries both the baryon number and lepton number [1]
We explore a possibility of incorporating a vector leptoquark at TeV scale in the PS model, consistently with the observed standard model (SM) fermion masses and various experimental results
We shall discuss the flavor physics induced by the leptoquark and the extra Higgs bosons when mX 1⁄4 5 TeV and the sizable leptoquark couplings are given by Eqs. (3.5) and (3.6), so that the b → sμμ anomaly is explained
Summary
A leptoquark is a hypothetical boson that carries both the baryon number and lepton number [1]. [21], where a couple of vectorlike copies of fundamental chiral multiplets are added to the minimal setup In such a model, SM quarks and leptons originate in different PS multiplets which are distinguished by an imposed global symmetry, which helps to disentangle the strong mass equality relations and to suppress the rare meson decays event with the TeV-scale PS breaking. New physics models containing a vector leptoquark U1 with the quantum number ð3; 1; 2=3Þ under the SM gauge group, GSM 1⁄4 SUð3ÞC × SUð2ÞL × Uð1ÞY, are attractive Such models can provide a coherent explanation for both b → sμμ and b → cτν anomalies. We construct a simple model based on the PS gauge theory that realizes a TeV-scale vector leptoquark and accounts for the observed SM fermion masses and mixings as well as the measurements of the flavor violating processes. The details of the model and numerical analysis are shown in Appendixes A and B, respectively
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