2019 KPS Spring Meeting

 

Open KIAS Special Lecture

 

April 24, 2019  Daejeon Convention Center (DCC)

Lectures Home > Lectures

[Lecture 1.] Long Baseline Neutrino Experiments, Past, Present and Future / Mark Hartz  [LECTURE NOTE]

 

[Abstract]

 

The discovery of neutrino oscillations has established the massive neutrino and the presence of physics beyond the Standard Model. With the measurement of a non-zero value for the third mixing angle, $theta_{13}$, by reactor experiments and T2K, the potential for an new source of CP violation in the mixing of neutrinos has been realized. The current generation of accelerator based long-baseline experiments, T2K and NOvA, along with atmospheric neutrino experiments, Super-K and IceCube, and reactor neutrino experiments, Daya Bay, RENO and Double Chooz, are making ever more precise measurements of neutrino oscillation parameters, searching for CP violation in neutrino oscillations and probing the hierarchy of neutrino mass states. The next generation of long baseline neutrino experiments, Hyper-K and DUNE, will make even more precise measurements of neutrino oscillation parameters that probe the origin of flavor, aim for unprecedented sensitivity to CP violation, and search for new physics beyond the 3-neutrino mixing paradigm. In this talk, I will review the past and current accomplishments of long baseline neutrino experiments and discuss the prospects of future experiments and their status. I will also discuss the challenges to realize the neutrino oscillation precision measurement program in the next generation experiments, including the critical sources of systematic uncertainty that must be controlled.

 

 

[Lecture 2.] Outlook on Particle Physics with Future Colliders / Sunghoon Jung  [LECTURE NOTE]

 

[Abstract] 

 

What do we expect to do in particle physics with future colliders? 

We will first overview the status of proposed future colliders: upgraded LHC, ILC, FCC, CEPC, and CLIC. Then we will summarize inputs suggested to the European (Particle Physics) Strategy. We can gauge where we are heading to as well as what we need in order to complement the future-collider programs.