主持人:唐健 副教授
摘要:
The China Jinping Underground
Laboratory (CJPL), which has the lowest cosmic-ray muon flux and the
lowest reactor neutrino flux of any laboratory, is ideal to carry
low-energy neutrino experiments. With two detectors and a total
fiducial mass 2,000-ton for the solar neutrino physics (equivalently
3,000-ton for the geo-neutrino and supernova neutrino physics), the
Jinping neutrino experiment will have the potential to identify the
neutrinos from the CNO fusion cycles of the Sun, to cover the
transition phase for the solar neutrino oscillation from vacuum to
matter mixing, and to measure the geo-neutrino flux, including the
Th/U ratio. These goals can be fulfilled with the mature existing
techniques. Efforts on increasing the target mass with multi-modular
neutrino detectors and on developing the slow liquid scintillator
will increase the Jinping discovery potential in the study of solar
neutrinos, geo-neutrinos, supernova neutrinos, and dark matter.
报告简介:
Associate Professor, Department of Engineering Physics, Tsinghua University, 2011-date
Research Associate, Physics Department, Brookhaven National Laboratory, 2007-2011
Visitor, Physics Department, Brookhaven National Laboratory, six months within 2005-2007
Postdoctor, Department of Engineering Physics, Tsinghua University, 2005-2007
Honors
Breakthrough Prize in Fundamental Physics (Daya Bay collaboration), 2016
Young Top-Notch Talent Award, Particle Physics Frontier Excellence Innovation Center, Chinese Science Academy, 2014