Opt Lett. 2023 Feb 15;48(4):1020-1023. doi: 10.1364/OL.480178.
We present a high-performance laser frequency stabilization method using modulation transfer spectroscopy (MTS) on the rubidium D transition line. A substantial improvement of the laser frequency stability was achieved by searching for the optimal diameter and intensity settings of the probe and pump beam. The frequency instability measured from the beat frequency of two locked external cavity diode lasers (ECDLs) reached a short-term stability of 4.5×10/ and did not exceed 2 × 10 until 10 s, which is the best performance reported thus far with a D transition. The long-term stability is limited by the offset fluctuations of the baseline induced by the residual amplitude modulation (RAM), which can be further improved by reducing the current temperature variation of about 0.2 K by means of temperature stabilization or through a further reduction of the RAM.
我们提出了一种基于铷 D 跃迁线调制传递光谱(MTS)的高性能激光频率稳定方法。通过寻找最佳的探测和泵浦光束直径和强度设置,实现了激光频率稳定性的显著提高。从两个锁定的外腔二极管激光器(ECDL)的拍频测量得到的频率不稳定性达到了 4.5×10/的短期稳定性,并且在 10s 内没有超过 2×10,这是迄今为止在 D 跃迁中报道的最佳性能。长期稳定性受到由残余幅度调制(RAM)引起的基线偏移波动的限制,可以通过温度稳定将当前温度变化约 0.2K 降低或通过进一步降低 RAM 来进一步提高。