In this talk, I would like to investigate the excellent potential of future tau neutrino experiments in probing non-standard interactions and secret interactions of neutrinos. I would like to first discuss so-called secret neutrino interactions of tau neutrinos including their possible effects in cosmology and astroparticle physics. Then, the sensitivities of probing such interactions in various tau neutrino experiments such as DUNE, SHiP, SND@LHC, FASERnu, and future experiments in FPF will be discussed. Due to its ability of identifying and reconstructing the tau lepton decay products, DUNE far detector can have excellent sensitivity beyond the existing cosmological and astrophysical bounds by observing downward-going atmospheric neutrinos. Also pros and cons of other experiments will be discussed.
Bio: Seodong Shin is a theoretical particle physicist specializing in high-energy phenomenology with a focus on beyond the Standard Model physics. He holds a PhD, MS, and BS in Physics from KAIST. Currently an Associate Professor at Jeonbuk National University, Dr. Shin has previously held positions at Yonsei University, the Institute for Basic Science, and as a visiting scholar at the University of Chicago and Fermilab. His recent research interests include neutrino physics, dark matter, collider physics, and long-lived particle searches.
Prof. Jia Liu