Constraining Scalar Doublet and Triplet Leptoquarks with Vacuum Stability and Perturbativity

Abstract

We investigate the constraints on the leptoquark Yukawa couplings and Higgs-leptoquark quartic couplings for scalar doublet leptoquark R2, scalar triplet leptoquark S3 and their combination with both three generations and one generation from perturbative unitarity and vacuum stability. Perturbative unitarity of all the dimensionless couplings have been studied via one- and two-loop beta-functions. Introduction of new SU(2) multiplets in terms of these leptoquarks fabricate Landau poles at two-loop level in the gauge coupling g2 at 1019.7 GeV and 1014.4 GeV, respectively for S3 and R2+ S3 models with three generations. However, such Landau pole ceases to exist for R2 and any of these extensions with both one and two generations till Planck scale. The Higgs-leptoquark quartic couplings acquire severe constraints to protect Planck scale perturbativity, whereas leptoquark Yukawa couplings get some upper bound in order to respect Planck scale stability of Higgs Vacuum. The Higgs quartic coupling at two-loop constraints the leptoquark Yukawa couplings for R2, S3, \,R2+ S3 with values 1.30, 3.90, 1.00 with three generations. In the effective potential approach, the presence of any of these leptoquarks with any number of generations pushes the metastable vacuum of the Standard Model to the stable region.