带有晶格功率增强腔的掺镱光学时钟

IF 1.5 4区 物理与天体物理 Q2 PHYSICS, MULTIDISCIPLINARY
Chunyun Wang, Yuan Yao, Haosen Shi, Hongfu Yu, Longsheng Ma, Yanyi Jiang
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引用次数: 0

摘要

我们构建了一个功率增强腔,用于在镱光时钟中形成光晶格。实验证明,当功率仅为 0.6 W 的激光进入晶格腔时,腔内晶格功率可提高约 45 倍,陷阱深度可达 1400 E r。如此高的阱深是精确评估晶格诱导光偏移的关键,其不确定性可低至 ~1×10-18。通过探测被困在功率增强光晶格中的镱原子,我们获得了 4.3 Hz 线宽的拉比光谱,然后将其反馈给时钟激光器,用于光晶格时钟的闭环操作。我们根据交错测量结果评估了掺镱光晶格时钟的密度偏移,结果为-0.46(62) mHz。与我们第一个不带晶格功率增强腔的掺镱光学时钟的密度偏移相比,这一结果较小,这主要是由于晶格直径更大(344 μm)。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
An Yb optical clock with a lattice power enhancement cavity
We construct a power enhancement cavity to form an optical lattice in an ytterbium optical clock. It is demonstrated that the intra-cavity lattice power can be increased by about 45 times, and the trap depth can be as large as 1400 E r when laser light with a power of only 0.6 W incidents to the lattice cavity. Such high trap depths are the key to accurate evaluation of the lattice-induced light shift with an uncertainty down to ~1×10-18. By probing the ytterbium atoms trapped in the power-enhanced optical lattice, we obtain a 4.3 Hz-linewidth Rabi spectrum, which is then used to feedback to the clock laser for the close loop operation of the optical lattice clock. We evaluate the density shift of the Yb optical lattice clock based on interleaving measurements, which is -0.46(62) mHz. This result is smaller compared to the density shift of our first Yb optical clock without lattice power enhancement cavity mainly due to a larger lattice diameter of 344 μm.
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来源期刊
Chinese Physics B
Chinese Physics B 物理-物理:综合
CiteScore
2.80
自引率
23.50%
发文量
15667
审稿时长
2.4 months
期刊介绍: Chinese Physics B is an international journal covering the latest developments and achievements in all branches of physics worldwide (with the exception of nuclear physics and physics of elementary particles and fields, which is covered by Chinese Physics C). It publishes original research papers and rapid communications reflecting creative and innovative achievements across the field of physics, as well as review articles covering important accomplishments in the frontiers of physics. Subject coverage includes: Condensed matter physics and the physics of materials Atomic, molecular and optical physics Statistical, nonlinear and soft matter physics Plasma physics Interdisciplinary physics.
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