摘要:
Nuclei and hadrons are “laboratories” for exploring nature’s fundamental interactions. In this talk, I discuss the theoretical challenges and advances in the interpretation of experimental tests of fundamental symmetries performed with these strongly interacting systems. This theoretical work has enabled us to exploit such tests to achieve a deeper understanding of the dynamics of Quantum Chromodynamics in the non-perturbative regime and to gain a powerful new tool in the hunt for possible physics beyond the Standard Model.
报告人简介:
Professor Ramsey-Musolf is T.D. Lee Chair professor at the T.D. Lee Institute/Shanghai Jiao Tong University and Professor of Physics & Director at Amherst Center for Fundamental Interactions at U. Mass Amherst. Professor Ramsey-Musolf pursues research at the interface of particle and nuclear physics with cosmology. He was awarded the 2023 Herman Feshbach Prize in Theoretical Nuclear Physics by the American Physics Society “for seminal contributions in precision electroweak studies of nuclear and hadronic systems, making fundamental symmetry experiments powerful probes of strong interactions and new physics.” Professor Ramsey-Musolf obtained Ph.D. at Princeton University in 1989 and was elected as the Fellow of the American Physical Society in 2000. |