Tanabe Yuto, Sakamoto Yuma, Kohno Takuya, Akamatsu Daisuke, Hong Feng-Lei
Opt Express. 2022 Dec 19;30(26):46487-46500. doi: 10.1364/OE.478917.
We used precision spectroscopy to analyze the R(53)24-1, P(49)24-1, and R(95)25-1 lines of molecular iodine (I) to establish optical frequency references for the laser cooling of Yb atoms using the S - P intercombination transition at 556 nm. A laser frequency instability of < 2 × 10 (for 0.01 s < τ < 3000 s, τ is the average time of the measurement) was attained using the observed Doppler-free hyperfine transitions of the iodine lines. The absolute frequencies of the observed 63 hyperfine transitions were determined with an uncertainty of 7 kHz (fractional uncertainty of 1.3 × 10). Highly accurate hyperfine constants were determined by fitting the measured hyperfine splittings to a four-term Hamiltonian that includes the electric quadrupole, spin-rotation, tensor spin-spin, and scalar spin-spin interactions with an uncertainty of approximately 1 kHz. The observed hyperfine transitions of molecular iodine provide new frequency references for research using atomic Yb, because these transitions are close to the intercombination transition of Yb at 556 nm.
我们使用精密光谱学分析了分子碘(I)的R(53)24 - 1、P(49)24 - 1和R(95)25 - 1谱线,以利用556 nm处的S - P禁戒跃迁为镱(Yb)原子的激光冷却建立光学频率参考。利用观测到的碘谱线的无多普勒超精细跃迁,实现了激光频率不稳定性<2×10(对于0.01 s < τ < 3000 s,τ为测量的平均时间)。所观测的63个超精细跃迁的绝对频率的确定精度为±7 kHz(分数不确定度为1.3×10)。通过将测量的超精细分裂拟合到一个包含电四极、自旋 - 旋转、张量自旋 - 自旋和标量自旋 - 自旋相互作用的四项哈密顿量中,确定了高精度的超精细常数,不确定度约为1 kHz。所观测到的分子碘的超精细跃迁为使用镱原子的研究提供了新的频率参考,因为这些跃迁接近镱在556 nm处的禁戒跃迁。
