A composite pNGB leptoquark at the LHC

ALVAREZ, EZEQUIEL; DA ROLD, LEANDRO; JUSTE, AURELIO; SZEWC, MANUEL; SCHROEDER, TAMARA VAZQUEZ

JOURNAL OF HIGH ENERGY PHYSICS - (Online)

JHEP

Año: 2018 vol. 2018

1029-8479

The measurements of R(∗)K and R(∗)D by BaBar, Belle and the LHCb collaborations could be showing a hint of lepton flavor universality violation that can be accommodated by the presence of suitable leptoquarks at the TeV scale. We consider an effective description, with leptoquarks arising as composite pseudo Nambu-Goldstone bosons as well as anarchic partial compositeness of the SM fermions. Within this framework we study pair production of S3∼(3¯,3)1/3 at the LHC. We focus on the component S1/33 of the triplet, which decays predominantly to tτ and bν, and to tμ to a smaller extent, and study the bounds from existing searches at s√=13 TeV at the LHC. We find that sbottom searches in the bb¯+MET final state best explore the region in parameter space preferred by our model and currently exclude S1/33 masses up to ∼1 TeV. Additional searches, considering the tτ and tμ decay modes, are required to probe the full physical parameter space. In this paper we also recast existing searches for stops in B−L R-parity violating scenarios and searches for SM 4-tops, and obtain the regions in parameter space currently excluded. Practically the whole physical parameter space is currently excluded for masses up to ∼0.8 TeV, which could be extended up to ∼1 TeV with the full Run 3 dataset. We conclude that pair production searches for this leptoquark can benefit from considering the final state tτb+MET, where the largest branching ratio is expected. We appraise that future explorations of leptoquarks explaining the B-anomalies with masses beyond the TeV should also consider single and non-resonant production in order to extend the mass reach.