Speaker
Description
Over the past half-decade, the realm of solar neutrino physics has been illuminated with groundbreaking discoveries. These encompass the meticulous 3% measurements of $^7$Be solar neutrinos, the pioneering detection of CNO solar neutrinos, and the debut measurements of solar core C+N relative abundances utilizing solar neutrinos.
The upcoming contributions from experiments like JUNO, Hyper-K, and DUNE are poised to further enhance our understanding of solar neutrino physics. Borexino has astoundingly showcased the capability to extract directional information from conventional liquid scintillator detectors. In parallel, next-generation directional experiments such as Theia and the Jinping Neutrino Experiment are expected to push the boundaries of CNO solar neutrino measurements.
As we stand at this juncture, solar neutrinos are no longer just cosmic messengers but are evolving into precision tools. They open the portals to a deeper grasp of solar physics, matter effects, and potential new physics vistas.
In this talk, I will embark on a journey through these recent experimental breakthroughs, their future potential, and the consequent profound implications for solar neutrino physics.
Details
Dr. Xuefeng DING, Associate Research Fellow, Institute of High Energy Physics (Beijing), China, http://english.ihep.cas.cn/
| Is this abstract from experiment? | No |
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| Name of experiment and experimental site | N/A |
| Is the speaker for that presentation defined? | Yes |
| Internet talk | No |
