Abstract
We investigate the impact of flavor-conserving, non-universal quark-lepton contact interactions on the dilepton invariant mass distribution in p~p rightarrow ell ^+ ell ^- processes at the LHC. After recasting the recent ATLAS search performed at 13 TeV with 36.1 fb^{-1} of data, we derive the best up-to-date limits on the full set of 36 chirality-conserving four-fermion operators contributing to the processes and estimate the sensitivity achievable at the HL-LHC. We discuss how these high-p_T measurements can provide complementary information to the low-p_T rare meson decays. In particular, we find that the recent hints on lepton-flavor universality violation in b rightarrow s mu ^+ mu ^- transitions are already in mild tension with the dimuon spectrum at high-p_T if the flavor structure follows minimal flavor violation. Even if the mass scale of new physics is well beyond the kinematical reach for on-shell production, the signal in the high-p_T dilepton tail might still be observed, a fact that has been often overlooked in the present literature. In scenarios where new physics couples predominantly to third generation quarks, instead, the HL-LHC phase is necessary in order to provide valuable information.
Highlights
Searches for new physics in flavor-changing neutral currents (FCNC) at low energies set strong limits on flavor-violating semileptonic four-fermion operators, often pushing the new physics mass scale beyond the kinematical reach of the LHC [1]
We investigate the impact of flavor-conserving, non-universal quark-lepton contact interactions on the dilepton invariant mass distribution in p p → + − processes at the LHC
In this work we study the impact of such contact interactions on the tails of dilepton invariant mass distribution in p p → + − and use the limits obtained in this way to derive bounds on class of models which aim to solve the recent b → s anomalies
Summary
Searches for new physics in flavor-changing neutral currents (FCNC) at low energies set strong limits on flavor-violating semileptonic four-fermion operators (qq ), often pushing the new physics mass scale beyond the kinematical reach of the LHC [1]. In this work we study the impact of such contact interactions on the tails of dilepton invariant mass distribution in p p → + − and use the limits obtained in this way to derive bounds on class of models which aim to solve the recent b → s anomalies. 2 we present a general parameterization of new physics effects in p p → + − and perform a recast of the recent ATLAS search at 13 TeV with 36.1 fb−1 of data [11] to derive present and future-projected limits on flavor non-universal contact interactions for all quark flavors accessible in the initial protons.
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