Abstract
The $U_1$ leptoquark is known to be a suitable candidate for explaining the semileptonic $B$-decay anomalies. We derive precise limits on its parameter space relevant for the anomalies from the current LHC high-$p_{\rm T}$ dilepton data. We consider an exhaustive list of possible $B$-anomalies-motivated simple scenarios with one or two new couplings that can also be used as templates for obtaining bounds on more complicated scenarios. To obtain precise limits, we systematically consider all possible $U_1$ production processes that can contribute to the dilepton searches, including the resonant pair and single productions, nonresonant $t$-channel $U_1$ exchange, as well as its large interference with the Standard Model background. We demonstrate how the inclusion of resonant production contributions in the dilepton signal can lead to appreciably improved exclusion limits. We point out new search channels of $U_1$ that can act as unique tests of the flavour-motivated models. The template scenarios can also be used for future $U_1$ searches at the LHC. We compare the LHC limits with other relevant flavour bounds and find that a TeV-scale $U_1$ can accommodate both $R_{D^{(*)}}$ and $R_{K^{(*)}}$ anomalies while satisfying all the bounds.
Highlights
The concept of lepton flavor universality, a key prediction of the Standard Model (SM), seems to be in tension with the present experimental measurements of some semileptonic B-meson decays [1,2,3,4,5,6,7,8,9,10,11]
We explore the possible Large Hadron Collider (LHC) signatures of the minimal scenarios with only one free coupling and the next-to-minimal scenarios with more than one nonzero couplings we constructed in the previous section
We started with a generic coupling texture for U1 that can contribute to the RDðÃÞ and RKðÃÞ observables
Summary
The concept of lepton flavor universality, a key prediction of the Standard Model (SM), seems to be in tension with the present experimental measurements of some semileptonic B-meson decays [1,2,3,4,5,6,7,8,9,10,11]. We adopt a bottom-up approach and construct all possible minimal or next-tominimal scenarios within the U1 LQ model with one or two new couplings at a time that can accommodate either the RDðÃÞ or the RKðÃÞ anomalies These scenarios can be used as templates to obtain bounds on more complicated scenarios In this paper, we consider only the dilepton (ττ and μμ [82,83]) data to put bounds on the regions of U1 parameter space relevant for the RDðÃÞ and RKðÃÞ observables. We obtain the LHC bounds for various scenarios with different coupling structures and show that they are competitive and complimentary to other flavor bounds These bounds are independent of other known theoretical constraints on the U1 parameter space.
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