Speaker
Description
Inspired by the various LHCb results of lepton flavour violation on b→s transition we will study the lepton flavour violating b→l1l2 decays in terms of transversity amplitudes in non-universal Z’ model. These LFV
processes are extremely suppressed in the Standard Model (SM) because the expected levels at the SM lie far below current experimental sensitivities. In particular the branching fractions of B0→± and Bs→± decays are obtained in SM of order 10^-54 [1] whereas experimentally they are constrained at the order of 10^-5 by BaBar and LHCb with 90% and 95% confidence level respectively [2, 3]. There are several theoretical models proposed to explain various popular anomalies of b hadron sector. It can be said that the models that generate LFU violation also can generate LFV processes. Various lepton flavour violating decays, such as tau→3 mu, mu→3e and radiative decays →e etc are studied in different NP models [4, 5] though there are no direct experimental evidence of these decays but their experimental bounds exist. In this work we will study the differential branching fractions of LFV decays b→l1l2 induced by the quark level transition b→sl1l2 in Z’ model where l1 and l2 are charged leptons of different flavours.
We will constrain the NP couplings using several experimental upper limits. It is expected that the study of the decay would be very interesting and that might emboss the footprints of NP more aesthetically.
References:
1. L. Calibbi and G. Signorelli, Riv. Nuovo Cim. 41, 71 (2018) [arXiv: 1709.00294 [hep-ph]].
2. BaBar collaboration, B. Aubert et al., Phys. Rev. D 77, 091104 (2008) [arXiv: 0801.0697 [hep-ex]].
3. R. Aaij et al. [LHCb Collaboration], Phys. Rev. Lett. 123, 211801 (2019) [arXiv: 1905.06614 [hep-ex]].
4. S. Sahoo and R. Mohanta, Phys. Rev. D 93,114001 (2016) arXiv:1512.04657[hep-ph]].
5. D. Das, Eur. Phys. J. C 79, 1005 (2019), [arXiv: 1909.08676 [hep-ph]].