Description |
The role of precise nuclear physics theories and models is increasing in
neutrino physics. This has been recognized in low-energy neutrino
experiments for many years, but recent progress of accelerator-based
neutrino oscillation experiments emphasizes the importance of nuclear
physics, or many-body nuclear problems. Modern neutrino oscillation
experiments, such as T2K and NOvA, require us to simulate nucleon
correlations, and this trend will continue with future experiments,
including DUNE and Hyper-Kamiokande. Surprisingly, the need of such
nuclear theory is everywhere in high-energy particle physics, and new
calculations reveal previously ignored connections between nuclear
physics and particle physics.
In this talk, I outline the status of neutrino interaction physics, focusing
on the 1 to 10 GeV region which is critical to neutrino oscillation
experiments. Special attention is paid to the recent developments in nuclear
models which made contributions to neutrino physics.
Liga Zoom:
https://cuaed-unam.zoom.us/j/82622280628?pwd=MDg2NEtoZWNUaDJpMGhyRmh4MWwwQT09
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