Understanding Neutrino Interactions through Nuclear Theory and Quantum Technologies
I am interested in understanding how neutrinos interact with atomic nuclei, a key challenge for current and future neutrino experiments such as DUNE and Hyper-Kamiokande. My research focuses on developing theoretical models and simulation tools to improve the precision of neutrino measurements and to search for physics beyond the Standard Model. I am a member of the T2K and DUNE collaborations and contribute to the development of the NEUT and GENIE neutrino event generators used by major long-baseline neutrino experiments.
My current research explores the interface between particle physics, nuclear many-body theory, and quantum technologies. Through my Royal Society University Research Fellowship, I am developing new approaches to studying complex nuclear dynamics using quantum simulation platforms, including ultracold atoms and other quantum systems. My long-term goal is to establish an interdisciplinary research programme that combines fundamental physics and quantum technologies to address some of the most challenging problems in neutrino and nuclear physics.