Ytterbium optical lattice clock at INRIM

M. Pizzocaro, F. Bregolin, G. Milani, B. Rauf, P. Thoumany, G. Costanzo, F. Levi, D. Calonico
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引用次数: 1

Abstract

We present an optical lattice clock based on ytterbium 171Yb atoms developed in the laboratories of INRIM. In the experiment, we cool and trap ytterbium atoms in a two stage magneto-optical trap (MOT) (at 399nm and 556nm for the first and second stage, respectively). Atoms are then transferred in a horizontal, one-dimensional optical lattice at the magic wavelength (759 nm). Here the clock transition at 578nm is probed by a laser stabilized on an ultra-stable cavity. We describe the generation of all the laser sources, the physic package and the operation of the clock. Lasers at 399 nm, 556nm and 578nm are obtained, with different techniques, using non-linear crystals starting from infrared sources. The clock laser is stabilized using a high finesse notched ULE cavity. The lattice is made with a titanium-sapphire laser. The aluminum vacuum chamber is designed for wide optical access and its temperature is measured by 8 thermistors for blackbody shift evaluation. Our system allows for fast loading of the lattice with 1 × 104 atoms trapped in the lattice in 250 ms. We obtained preliminary spectroscopy results and we locked the clock laser to the atomic line. Future perspectives are discussed.
INRIM的镱光学晶格钟
我们提出了一种基于171Yb原子的光学晶格时钟。在实验中,我们在两级磁光阱(MOT)中冷却和捕获镱原子(第一级和第二级分别在399nm和556nm处)。然后原子在一个水平的一维光学晶格中以神奇的波长(759nm)转移。在这里,在578nm处的时钟跃迁是通过在超稳定腔上稳定的激光来探测的。我们描述了所有激光源的产生,物理封装和时钟的操作。采用不同的技术,利用非线性晶体从红外源出发,获得了399nm、556nm和578nm的激光。时钟激光器是稳定使用高精细缺口ULE腔。晶格是由钛蓝宝石激光器制成的。铝真空室设计用于宽光学通道,其温度由8个热敏电阻测量,用于黑体位移评估。我们的系统允许在250 ms内快速加载晶格,晶格中捕获了1 × 104个原子。我们获得了初步的光谱学结果,并将时钟激光锁定在原子线上。讨论了未来的展望。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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