Abstract: Neutrino oscillations have been established as an energy and distance dependent phenomena, beyond the Standard Model of Particle Physics. However, a number of key questions remain, which have implications for our understanding of the origin and development of our …
Abstract: Dark matter is the dominant source of matter in our Universe. However, while dark matter dictates the evolution of large-scale astrophysical systems through its gravitational effects, the particle nature of dark matter is unknown. In this talk I will …
Ben Safdi (U. Michigan) “The Search for Axion Dark Matter Read More »
ABSTRACT: The DUNE long baseline neutrino oscillation collaboration consists of over 180 institutions from 33 countries. The experiment will consist of 4 10kT fiducial volume liquid argon TPC’s in South Dakota and a multi-system near detector at Fermilab. The …
ABSTRACT: The LHC is both a Higgs and B-factory, and for both particles it will deliver the largest data set for many decades to come. I will discuss a few examples of ways we can leverage this to search for …
Abstract: Neutrino physics aims to answer some of the most pressing questions in particle physics: why the Universe is dominated by matter, why the neutrino mass is so small and if there are more types of neutrinos. Due to the …
ABSTRACT: Halometry---mapping out the spectrum, location, and kinematics of nonluminous structures inside the Galactic halo---can be realized via effects that variable weak gravitational lensing induces on the proper motions of stars and other luminous background sources. Modern astrometric surveys provide …
Ken Van Tilburg (NYU/IAS) “The Structure of Dark Matter on Small Scales” Read More »
Abstract: While neutrino oscillation physics has entered an era of precision measurements, several anomalies in experiments at short baselines remain without a satisfactory answer. The MicroBooNE experiment has been recording neutrino interactions on Fermilab’s Booster Neutrino Beam since 2015 employing …
David Caratelli (Fermilab) “Neutrinos at Short Baselines: the MicroBooNE Experiment” Read More »
Abstract: The Mu2e experiment will search for the charged lepton flavor violating (CLFV) neutrino-less conversion of a negative muon into an electron in the field of a nucleus, reaching a 90% C.L. limit of 8x10^-17 on the conversion rate. …