TL;DR
This paper discusses how LHCb's precision measurements of rare flavor physics processes, like B_s mixing and b→s decays, can indirectly reveal new physics beyond the Standard Model.
Contribution
It presents key LHCb studies on B_s mixing and rare decays to illustrate the potential of indirect searches for new physics effects.
Findings
Constraints on new physics from B_s mixing measurements
Evidence of deviations in rare b→s decay processes
Complementary role of indirect searches to direct detection
Abstract
Although direct detection of new particles will be the main focus of the LHC, indirect New Physics searches are expected to provide useful complementary information. In particular, precision measurements of rare processes occurring in flavour physics are of utmost importance in constraining the structure of the New physics low energy effective Lagrangian. In this paper, few key LHCb studies, including mixing and rare decays through the quark level loop transition, are presented to illustrate New Physics effects at low energy.
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Taxonomy
TopicsParticle physics theoretical and experimental studies · High-Energy Particle Collisions Research · Quantum Chromodynamics and Particle Interactions