Neutrinos are one of the most fascinating particles that occur in nature. Hundreds of millions of times smaller than the proton, the neutrino was once thought to be massless and to travel at the speed of light. Huge strides have been made in our understanding of neutrinos in past decades, with the resolution of the solar neutrino problem providing clear evidence of neutrino oscillation and, thus, a non-zero neutrino mass – a Nobel-Prize winning discovery. This has allowed us to move beyond basic questions to a precision era, in which we can study detailed properties of these fundamental particles. This talk will summarize open questions in the field of neutrinos, and introduce the SNO+ experiment, which will seek to resolve the very nature of the neutrino: is it unique among fermions as being its own antiparticle? We will then discuss future prospects for the field, including exciting new technological developments that could permit a new kind of neutrino experiment, with a broad experimental program and wide physics reach.
Weak Interaction Discussion Group Talk (WIDG): Gabriel Orebi Gann, University of California, Berkeley, “THEIA: Physics Potential of an Advanced Scintillation Detector”
Event time:
Tuesday, February 23, 2016 - 12:00pm to 1:00pm
Location:
Wright Lab, EAL 108 Conference Room (EAL108)
(Location is wheelchair accessible)
268 Whitney Avenue
New Haven 06520
Event description: