Search for flavour anomalies at LHCbdecay-time-dependent CP violation in 𝑩𝒔 𝟎 β†’ 𝑲&𝝅( 𝑲(𝝅& and Lepton Universality in π‘©πŸŽ β†’ 𝑫(βˆ—)&𝒍𝝂𝒍

  1. GarcΓ­a PardiΓ±as, JuliΓ‘n
Supervised by:
  1. MΓ‘ximo PlΓ³ CasasΓΊs Director
  2. Juan Jose Saborido Silva Co-director

Defence university: Universidade de Santiago de Compostela

Fecha de defensa: 11 June 2018

Committee:
  1. Patrick Owen Chair
  2. Diego Martinez Santos Secretary
  3. Marta Calvi Committee member

Type: Thesis

Teseo: 555902 DIALNET

Abstract

The Standard Model (SM) of Particle Physics is a very successful theory, but it leaves some important questions unanswered. One long-standing mystery is the so called flavour structure, consisting on the specific arrangement of fermions in three families and the connections among them. Several New Physics (NP) models predict modifications to the flavour structure and consequent deviations from the expected behaviour of sub-atomic processes. The LHCb experiment, at CERN, searches for NP by measuring the properties of B mesons decays, using B mesons produced in p-p collisions at the LHC. This thesis presents two measurements performed in LHCb that allow to test the flavour structure of the SM in different ways. The first and main analysis corresponds to the World's first measurement of the Charge-Partity (CP)-violating phase phi_sdd, using Bs0 -> (K+pi-) (K-pi+) decays. The analysis employs data collected by LHCb in 2011 and 2012. The physical motivation is the CP problem, corresponding to the inconsistency between the huge matter/anti-matter asymmetry in the Universe and the small CP asymmetry that the SM can accommodate (embedded in the flavour structure). The Bs0 -> K*0(-> K+ pi-) anti-K*0(-> K- pi+) decay is forbidden at tree level in the SM, only proceeding via loop (penguin) diagrams. This suppression allows potential NP contributions to play a significant role. The phi_sdd phase, predicted to be approximately 0 in the SM, arises in the interference between the Bs0/anti-Bs0 oscillation and the decay of either a Bs0 or an anti-Bs0 to the K*0 anti-K*0 final state. To increase the available statistics, not only the (anti-)K*0 resonance is inspected, but also several scalar, vector and tensor Kpi components present in a two-dimensional Kpi mass window of 750 to 1600 MeV/c2. A total of 19 amplitudes are studied. Given the current level of sensitivity, the same phi_sdd phase is used for all the states. A full amplitude analysis is done via an un-binned fit to the multi-dimensional decay distribution on the Bs0 decay-time, three angular variables and the two Kpi invariant masses. The CP-violating phase is measured to be phi_sdd = -0.10 +- 0.13 +- 0.14 rad, where the first uncertainty is statistical and the second one is systematic. It is compatible with the SM prediction, within uncertainties. Many other amplitude-parameters are determined in addition. In particular, the longitudinal-polarisation fraction of the Bs0 -> K*0 anti-K*0 decay is found to be f_L = 0.208 +- 0.032 +- 0.046, which confirms the previously measured low value and deviates from the existent expectations based on the SM. The second analysis aims at testing the Lepton Universality. This property of the SM consists on the electro-weak couplings being the same for the three lepton families. Several deviations from this behaviur have been recently observed, the largest one corresponding to the combined measurement of R(D) and R(D*) and being of 4.1 standard deviations. The R observables are defined as R(D(*)) = BF(B -> D(*) tau anti-nu_tau) / BF(B -> D(*) mu anti-nu_mu), where D is D0 or D+ and D* is D*0 or D*+. The analysis presented in this work corresponds to the first LHCb measurement of R(D) using D+, and is restricted to the case tau -> mu nu_tau anti-nu_mu and D+ -> K- pi+ pi+. A data sample collected by LHCb in 2015 is used. The measurement is done through a binned, three-dimensional, template-based fit to filtered candidates with the visible final state K- pi+ pi+ mu-. Contributions from D*+ -> D+ pi0 to the same visible state, when the pi0 is not reconstructed, allow to measure R(D*) in combination with R(D). After filtering, a total yield of about 800 000 D+ candidates is found. The thesis reports the work done in this analysis, which will be continued in the future. To improve the sensitivity, the 2015 data sample will be combined for the final result with the data collected in 2016.