Energy Levels and Transition Rates of Laser-Cooling Candidate Th

• Main Authors: Zhang, Rui, Lu, Yuzhu, Yan, Shuaiting, Ning, Chuangang
• Format: Journal Article
• Language: English
• Published: 26.09.2024
• Subjects: Physics - Atomic and Molecular Clusters; Physics - Atomic Physics
• DOI: 10.48550/arxiv.2409.18430

The energy levels and transition rates of promising laser-cooling candidate thorium anion Th^- have been experimentally obtained in the current work. Three new excited states between the bound-bound electric dipole (E1) transition of Th^- are observed now, and their energy levels are determined to be 1,847(13), 3,166.8(59) and 3,666(12) cm^{-1}, respectively. Meanwhile, the lifetime of the upper state of that E1 transition is experimentally determined to be 30(2) microseconds, about 3 times shorter than the previous calculated result 86 microseconds, which makes Th^- the most promising candidate for laser cooling of negative ions. Furthermore, the lifetimes of two other short-lived odd-parity excited states of Th^- are also measured to be 59(4) and 53(3)microseconds, respectively.