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NP IN FCNCS AT LHCB: Exploring New Phenomena through Flavour Changing Neutral Currents with LHCb.

Project reference: 627401

Duration: From 2014-05-01 to 2016-04-30

Status : Active

Total cost: EUR 221 606

EU contribution: EUR 221 606

Objective: The Standard Model (SM) of particle physics has been very successful in describing phenomena at the smallest scales, yet we know that it is incomplete.It does not, for example, explain the matter-antimatter asymmetry in the universe or provide a dark matter candidate.Attempts to solve these open questions do so by introducing as yet undiscovered particles.If these particles exist, they will appear as virtual particles in quantum loops, where they can affect the rate and angular distributions of particle decays.

The main objective of this proposal is the study of rare flavour changing neutral current transitions in b-hadrons, where a b-quark decays to an s- or d-quark and a pair of muons.These processes are highly suppressed in the SM and the presence of new virtual particles can therefore have a comparably large effect.In particular the decay of a B-meson to a K* meson and a muon pair provides many observables that have excellent sensitivity to particles beyond the SM.

I propose a direct fit of the generalised couplings in this decay using the full data sample recorded by the LHCb collaboration.To achieve optimal sensitivity to possible contributions beyond the SM the fit algorithm will use the full available information of the final state (decay angles, decay flavour and invariant mass of the dimuon system).A benefit of this approach is that the fit can help to constrain sources of theoretical uncertainty that can otherwise limit the sensitivity.

In addition, I propose to perform a first three-dimensional angular fit of the decay of a Bs meson to a phi meson and a muon pair.This fit will determine several interesting CP-asymmetries with high sensitivity to contributions beyond the SM.

To complete the picture of semileptonic B-decays, I will study b-quark to d-quark transitions.These decays are further suppressed in the SM and allow to test the flavour structure of nature.

country :United Kingdom

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Publication:Mena Report
Date:Nov 8, 2014
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