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钙离子光频标研究进展

The progress of 40Ca+ optical frequency standards

  • 摘要: 钙离子光频标是原子光频标的成员之一。中国科学院精密测量科学与技术创新研究院(原武汉物理与数学研究所)从2000年开始选择钙离子为研究体系,先后解决了单离子稳定囚禁与有效冷却、超窄线宽激光稳频等一系列关键问题,特别是一步步抑制微运动和黑体辐射效应,实现了不确定度3.0×10-18的液氮低温离子光频标和不确定度4.8×10-18的室温离子光频标,稳定度达到6.3×10-18@52万秒。通过集成化设计,实现了不确定度1.3×10-17、高鲁棒性的可搬运钙离子光钟,并基于该光钟实现了高程差测量应用。通过参考本地铯喷泉钟和本地时标,并远程溯源到国际秒定义,实现了不确定度达3.2×10-16的钙离子光频跃迁绝对频率测量。钙离子光频跃迁被国际计量局推荐为新增的次级秒定义参考。

     

    Abstract: The calcium ion optical frequency standard is one of a variety of different kinds of optical frequency standards. Innovation Academy for Precision Measurement Science and Technology (formerly Wuhan Institute of Physics and Mathematics), Chinese Academy of Sciences has selected calcium ions as the optical frequency standard reference since 2000, and has successively step by step solved a series of problems, such as the trapping and laser cooling of singleions, the frequency stabilization to achieve ultra-narrow linewidth lasers, and especially the suppression of the systematic uncertainty due to the micromotion and the blackbody radiation. The overall systematic uncertainty of the liquid nitrogen optical frequency standard and the room temperature optical frequency standard were evaluated as 3.0×10-18 and 4.8×10-18 respectively, and the stability was measured as 6.3×10-18 at 520000 s. A transportable and robust calcium optical clock has been built with the integrated design and the uncertainty of the transportable clock was evaluated as 1.3×10-17. and a preliminary geopotential measurement was made with the transportable clock. The uncertainty for the absolute frequency measurement has been improved to 3.2×10-16, referenced to both the local cesium fountain clock and the local UTC(k) referenced to the SI second. The calcium ion optical clock transition has been recommended by the International Bureau of Weights and Measures (BIPM) as a new reference for the secondary representation of the SI second.

     

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