报告题目:(g−2)_{mu} Versus Flavor Changing Neutral Current Induced by the Light (B−L)_{mu tau} Boson
报 告 人:Dr. Yoshihiro Shigekami
工作单位:华中科技大学
报告时间: 2019年11月28日 15:00
报告地点:中心校区 物理楼 333报告厅
摘要:
We propose the local (B−L)_{mu tau} model, which minimally retains the local B−L extension for the sake of neutrino phenomenologies, and at the same time presents an invisible gauge boson Z' with mass of O(10) MeV to account for the discrepancy of the muon anomalous magnetic moment. However, to accommodate the correct pattern of Cabibbo-Kobayashi-Maskawa matrix, we have to introduce either a SU(2)_L doublet flavon or vector-like quarks plus a singlet flavon. In either case Z' induces flavor changing neutral current (FCNC) in the quark sector at tree-level. We find that the former scheme cannot naturally suppress the FCNC from the down-type quark sector and thus requires a large fine-tuning to avoid the stringent K --> pi nu nubar bound. Whereas the latter scheme, in which FCNC merely arises in the up-type quark sector, is still free of strong constraint. In particular, it opens a new window to test our scenario by searching for flavor-changing top quark decay mode t --> u/c+(invisible), and the typical branching ratio is O(10^−4).
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吉林大学理论物理中心