Conveners
Parallel Session III.2
- Valentina De Romeri
Standard three-neutrino oscillations are a well known phenomenon; however, the uncertainties on the mixing parameters do not allow us to exclude the possibility of the presence of new physics effects in the lepton sector. Future long-baseline (LBL) accelerator experiments may be able to probe different BSM models in neutrino oscillations. Indeed, these experiments should be able to look at...
We show that the models that induce neutrino magnetic moments while maintaining their small masses naturally also predict observable shifts in the muon anomalous magnetic moment. This shift is of the right magnitude to be consistent with the Brookhaven measurement as well as the recent Fermilab measurement of the muon g−2. This is pointing out the direct correlation between the magnetic moment...
The increasing need of numerical predictions for dark matter models is not always easy to satisfy looking at the software available today. With this work, we present a code to compute 2 to 2 squared scattering amplitudes using MARTY
, with all the benefits of having a fully open source C++
code to handle. The numerical library generated in this way has been enriched with additional...
In this talk I am going to present our newly developed event generator tool based on EvtGen that allows us to simulate new physics (NP) signatures in charged current semileptonic $\bar{B}\to D^{*+} \ell^- \bar{\nu}_\ell$ decays. Recent experimental results from Belle, Babar and LHCb have all pointed towards new physics in the weak $b\to c$ transitions which urge for an immediate need of...