The Future is Flavourful

Session

Keynote Talks

4 Jun 2024, 09:30

Science Building III/SC353 (NYCU)

Conveners

Keynote Talks: Experimental Neutrino Physics in Taiwan

• Martin Spinrath (NTHU)

Keynote Talks: BSM Heavy Flavours, Non-Locality, and searches in Colliders

• Reinard Primulando (Parahyangan Catholic University, Indonesia)

Keynote Talks: How well do we understand the proton?

• C.-J. David Lin (Institute of Physics, National Yang Ming Chiao Tung University)

Keynote Talks: Origin of neutrino masses and its experimental tests

• KINGMAN CHEUNG (NTHU)

Keynote Talks: Dispersive constraints on the SM flavor structure

• Julio Julio (National Research and Innovation Agency)

Keynote Talks: Flavour of dark flavours

• Priyanka Sarmah (NTHU)

3. Experimental Neutrino Physics in Taiwan.

Prof. Henry T. Wong (Institute of Physics, Academia Sinica)

04/06/2024, 09:30

I will present an overview of the experimental neutrino physics programs in Taiwan: past, present and future. The development also reflects how the subject evolve.

4. BSM Heavy Flavours, Non-Locality, and searches in Colliders

Stathes Paganis

04/06/2024, 13:30

A number of gravitation-motivated theories, as well as theories with new coloured fermions predict heavy particle towers with spectral densities ρ(m^2) growing faster than e^m, a characteristic of nonlocalizable theories. In this talk we will discuss a general approach for extracting the new Physics from the data. Although the approach can be applied to dark sectors, fifth force search or...

14. How well do we understand the proton?

Wen-Chen Chang (Institute of Physics, Academia Sinica, Taiwan)

05/06/2024, 09:30

The proton is a spin-1/2 fundamental particle, discovered as a basic constituent of atomic nuclei by Rutherford in 1917. It and its isospin partner, neutron, carry the majority of visible mass in our universe. Starting from Gell-Mann's quark model, the substructures of protons have been explored mostly by the deep-inelastic scattering and Drell-Yan process for more than five decades. In this...

18. Origin of neutrino masses and its experimental tests

Takehiko Asaka (Niigata University)

05/06/2024, 13:30

We discuss the origin of neutrino masses confirmed by various oscillation experiments. Especially, we consider the case when the Standard Model is extended by right-handed neutrinos and describe the so-called seesaw mechanism. We also discuss the possible tests of the seesaw mechanism
where all neutrinos are Majorana fermions and the lepton number is violated. In particular, we show how...

6. Dispersive constraints on the SM flavor structure

Hsiang-nan Li (Academia Sinica)

06/06/2024, 09:30

We perform dispersive analyses of representative physical observables
(heavy quark decay widths, neutral meson mixing, etc.) and demonstrate
that the parameters involved in scalar interactions of the Standard
Model (SM) is not completely free. The mass hierarchy from the neutrino
masses up to the electroweak scale, and the distinct quark and lepton
mixing patterns may be accommodated...

17. Flavour of dark flavours

Suchita Kulkarni (University of Graz)

06/06/2024, 13:30

I will take an overview of dark matter models and their potential connections with the world of flavours. This includes dark matter models where dark matters couples to specific Standard Model particles but also models where new dark flavours are proposed.