This research develops tabletop methods for studying rare radium-containing molecules to search for broken symmetries between matter and antimatter. Because radium’s asymmetric nuclear structure strongly amplifies subtle physical effects, these molecules provide highly sensitive probes for new physics that could help explain why matter exists in the universe after the Big Bang.

This research uses AI to detect subtle interactions between the Higgs boson and muons at the Large Hadron Collider. By refining large datasets, it aims to uncover how particles acquire mass at smaller scales. Confirming this interaction would deepen understanding of the Higgs field and fundamental physics.