Science

Particle Physics

Particle physics explores the fundamental constituents of matter and their interactions, using experiments like Belle-II, T2K, Super-Kamiokande. We are interested in joining the under-construction Hyper-Kamiokande.

Objectives

Our research aims to deepen the understanding of the Standard Model and search for new physics beyond it.

Nature's Greatest Puzzles by Chris Quigg

📄 Read: Nature's Greatest Puzzles by Chris Quigg (arXiv:hep-ph/0502070)

1. Where and what is dark matter?
2. How massive are neutrinos?
3. What are the implications of neutrino mass
4. What are the origins of mass?
5. Why is gravity so weak?
6. Is Nature supersymmetric?
7. Why is the Universe made of matter and not antimatter?
8. Where do ultra high-energy cosmic rays come from?
9. Did the Universe inflate at birth?

Current Status

We are actively involved in data analysis, simulation studies, and theoretical model development to interpret experimental results.

Prospects

Future work includes improving precision measurements, exploring CP violation, and contributing to the next-generation particle physics experiments.