Speaker: Dr. Lute Maleki (OEWaves Inc.) Title: Timing Metrology: Linking science and technology for societal benefits   Bio: Dr. Lute Maleki is a Founder, and President and CEO of OEwaves, Inc. The Company is focused on the development of photonic components and subsystems for advanced sensors and communication systems and quantum technology.  In 2014, he co-founded

Speaker: Dr. Jeffery Sherman (NIST) Title: Atomic timekeeping   Abstract: At present, our best recipe for measurement of time calls for keeping a continuous count of a stable, periodic process, such as oscillations of an isolated naturally-occurring quantum mechanical system. Atomic clocks and frequency references underpin essential technologies like global positioning, telecommunications, and effectively all dimensional

Speaker: Jean-François Paquet (Vanderbilt University) Title: Multi-messenger nuclear physics and microscopic relativistic fluids Abstract The quark-gluon plasma is a new phase of matter that can be produced by colliding large nuclei at velocities close to the speed of light. This plasma is both the smallest and hottest liquid ever produced, extending the size of a

Title: Scintillator Detector for Neutrino Physics Speaker: Minfang Yeh (Brookhaven National Laboratory, Upton, NY11973, USA, yeh@bnl.gov)   Abstract: The liquid scintillator detector is known to have low energy threshold, high light yield, and adequate attenuation length with efficient background discrimination in many years of operation for low-energy neutrino detection.  Besides the pulse shape discrimination, an improvement

Speaker: Dr. Breese Quinn (University of Mississippi) Title: Latest Results from the Fermilab Muon g-2 Experiment   Abstract: Two years ago, the Muon g-2 experiment at Fermilab published its first measurement of the anomalous magnetic moment of the muon, aμ = (g-2)/2, based on its first year of data representing roughly 6% of the total data