Chen Chun-Chia, Siegel Jacob L, Hunt Benjamin D, Grogan Tanner, Hassan Youssef S, Beloy Kyle, Gibble Kurt, Brown Roger C, Ludlow Andrew D
<a href="https://ror.org/05xpvk416">National Institute of Standards and Technology</a>, 325 Broadway, Boulder, Colorado 80305, USA.
<a href="https://ror.org/02ttsq026">University of Colorado</a>, Department of Physics, Boulder, Colorado 80309, USA.
Phys Rev Lett. 2024 Aug 2;133(5):053401. doi: 10.1103/PhysRevLett.133.053401.
We demonstrate subrecoil Sisyphus cooling using the long-lived ^{3}P_{0} clock state in alkaline-earth-like ytterbium. A 1388-nm optical standing wave nearly resonant with the ^{3}P_{0}→^{3}D_{1} transition creates a spatially periodic light shift of the ^{3}P_{0} clock state. Following excitation on the ultranarrow clock transition, we observe Sisyphus cooling in this potential, as the light shift is correlated with excitation to ^{3}D_{1} and subsequent spontaneous decay to the ^{1}S_{0} ground state. We observe that cooling enhances the loading efficiency of atoms into a 759-nm magic-wavelength one-dimensional (1D) optical lattice, as compared to standard Doppler cooling on the ^{1}S_{0}→^{3}P_{1} transition. Sisyphus cooling yields temperatures below 200 nK in the weakly confined, transverse dimensions of the 1D optical lattice. These lower temperatures improve optical lattice clocks by facilitating the use of shallow lattices with reduced light shifts while retaining large atom numbers to reduce the quantum projection noise. This Sisyphus cooling can be pulsed or continuous and is applicable to a range of quantum metrology applications.
我们利用类碱土镱中长寿命的(^{3}P_{0})钟态演示了亚反冲西西弗斯冷却。一个与(^{3}P_{0}\to^{3}D_{1})跃迁近乎共振的1388纳米光学驻波在空间上产生了(^{3}P_{0})钟态的周期性光频移。在超窄钟跃迁上进行激发后,由于光频移与激发到(^{3}D_{1})以及随后自发衰变到(^{1}S_{0})基态相关,我们观察到在这个势场中的西西弗斯冷却。我们观察到,与在(^{1}S_{0}\to^{3}P_{1})跃迁上的标准多普勒冷却相比,冷却提高了原子加载到759纳米魔波长一维(1D)光学晶格中的效率。在一维光学晶格弱约束的横向维度中,西西弗斯冷却产生了低于200纳开尔文的温度。这些更低的温度通过促进使用光频移减小的浅晶格同时保持大量原子数来降低量子投影噪声,从而改进了光学晶格钟。这种西西弗斯冷却可以是脉冲式的或连续的,适用于一系列量子计量应用。
