Probing the Origin of Neutrino Mass at Future Muon Collider

Explore the fundamental physics of neutrino mass generation through this conference talk examining how future muon collider experiments could reveal the mechanisms behind one of particle physics' most intriguing mysteries. Delve into the theoretical frameworks that explain why neutrinos have mass, despite being nearly massless particles, and discover how the unique properties of muon colliders make them ideal tools for investigating these phenomena. Learn about the experimental signatures and detection strategies that could distinguish between different neutrino mass models, including seesaw mechanisms and their variants. Understand the technical advantages of muon colliders over other particle accelerators for neutrino physics research, including their ability to produce clean collision environments and access specific energy ranges crucial for neutrino mass studies. Examine the current theoretical predictions and how future muon collider data could either confirm or challenge our understanding of neutrino mass generation, potentially revolutionizing our knowledge of fundamental particle interactions and the Standard Model of particle physics.