Research
The group focuses on studies of spin effects in highly polarized proton, neutron, and deuteron targets. These polarized scattering experiments use the world-class solid polarized targets, which are developed and tested right here in our Lab. We concentrate … VIEW MORE
We are unique among university based research groups as we have the capability to develop, build, and maintain the cryogenic polarized targets critical for investigating spin physics and helicity correlations. We focus primarily on high cooling power evaporation … VIEW MORE
We are interested in a wide energy range and have projects and affiliations at Fermi National Accelerator Facility, Dukes Triangle Universities Nuclear Laboratory, Jefferson National Accelerator Facility, Los Alamos National Labs, and Oak Ridge … VIEW MORE
We are involved in studying the quark and gluon structure of hadrons. Our group works with the nuclear theory group researching techniques to exploit helicity correlations using machine learning to support our experimental effort. We are interested in the quark and … VIEW MORE
We are involved in theoretical research of the polarization mechanisms in solid materials at low temperature. This work requires modeling different aspects of dynamic nuclear polarization and nuclear magnetic resonance for the purpose of optimizing and measuring bulk … VIEW MORE
Artificial Intelligence (AI) is quickly becoming the single most essential toolbox in almost every data-intensive field. In fundamental experimental sciences like Physics, this is especially true. Will AI allow us to ask and answer new questions not previously dreamed of, or … VIEW MORE
Quantum Information Science within particle and nuclear physics have broad applications and implications for future research and development. Our group is particularly interested in sensing devices and solid-state tools and techniques for measuring and controlling … VIEW MORE
