International Workshop on Baryon and Lepton Number Violation (BLV 2024)

Session

Lepton flavor violating processes

Oct 8, 2024, 2:15 PM

44. Lepton Flavour Violation (25'+5')

Ana M. Teixeira (LPC Clermont)

10/8/24, 2:15 PM

61. Lepton Flavor Violation by Two Units (17'+3')

Julian Heeck (University of Virginia)

10/8/24, 2:45 PM

58. The Latest Results of the MEG II Experiment (17'+3')

Giovanni Dal Maso (Psul Sherrer Insitut - PSI)

10/8/24, 3:05 PM

46. Probing CLFV with the Mu2e Experiment at Fermilab (17'+3')

Stefan E. Müller (Helmholtz-Zentrum Dresden-Rossendorf)

10/8/24, 3:25 PM

47. Search for LFV and Light New Physics at Belle-II (17'+3')

Youngjoon Kwon (Department of Physics, Yonsei University)

10/8/24, 4:15 PM

22. Searches for Hidden Sectors and Lepton Flavour Violation in Kaon Decays (17'+3')

Riccardo Fantechi (INFN - Sezione di Pisa)

10/8/24, 4:35 PM

Rare kaon decays are among the most sensitive probes of both heavy and light new physics beyond the Standard Model description thanks to high precision of the Standard Model predictions, availability of very large datasets, and the relatively simple decay topologies. The NA62 experiment at CERN is a multi-purpose high-intensity kaon decay experiment, and carries out a broad rare-decay and...

12. Bounds on Ultra Heavy HNLs (17'+3')

Mr Kevin Alberto Urquía-Calderón (Niels Bohr Institute)

10/8/24, 4:55 PM

Heavy Neutral Leptons (HNLs) are hypothetical particles that are able to explain neutrino oscillations. The presence of HNLs induces charged lepton flavor violating (cLFV) processes. Non-observations of these processes puts the strongest limits on parameters of HNL much heavier than the electroweak scale.
We demonstrate that for such HNLs, the branching ratio of cLFV processes is actually...

4. Heavy Sterile Neutrinos from B decays and new QCD Corrections to their Semi-Hadronic Decay Rates (17'+3')

Mr Tim Kretz (Karlsruher Institut für Technologie (KIT - TTP))

10/8/24, 5:15 PM

In modern experiments on flavour physics it is possible to search for the decays of $B$’s, $D$’s, or $\tau$’s into final states with heavy neutrinos $N$ (a.k.a. heavy neutral leptons). I present a common study of theorists and experimentalists from Belle II on constraints on $B-> D^{*} \ell N$. Next I discuss the status of the theory predictions of the various $N$ decay rates. In scenarios in...

14. Testing the Standard Model with Most Accurate Muon g-2 Measurements (17'+3')

René Reimann (Johannes Gutenberg University, Mainz)

10/8/24, 5:35 PM

The magnetic moment anomaly of the muon, that relates the cyclotron and spin precession frequency, provides one of the most stringent tests of the Standard Model of Particle Physics since it is measured and theoretically predicted to very high precision. Deviations between theoretical prediction and experimental measurements can be used to investigate tensions in the methods or can be...