Probing new physics at the LHC with bτ final states
Abstract
The RD() anomaly is one of the most intriguing experimental results in particle physics today. Experiments such as BaBar, Belle and LHCb have measured a consistent tension with the standard model (SM). We study several extensions of the SM that could potentially explain this tension, such as production of heavy W bosons, under the sequential SM scenario, leptoquarks with preferential couplings to third generation fermions, and interpretations through effective field theories. Such models, are not only able to explain the RD() anomaly but also to produce distinctive signatures at the LHC. We present different feasibility studies to probe each of these scenarios at the LHC, considering final states with one b-quark candidate, one hadronically decaying tau lepton (τh) and missing transverse momentum (pmissT). The selection criteria has been optimized for each model to achieve best signal signficance. The studies are performed considering different LHC running conditions, at s = 13 \, TeV and 13.6 TeV, and different luminosities (150~fb-1 and 3000~fb-1).
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