澳大利亚国家测量研究所/sup 171/Yb/sup +/微波频率标准的制定

Proceedings of the 2005 IEEE International Frequency Control Symposium and Exposition, 2005. Pub Date : 2005-08-31 DOI:10.1109/FREQ.2005.1574004

R. B. Warrington, P. Fisk, M. Wouters, M. Lawn, J. Longdell, S. Park

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引用次数: 3

摘要

基于171Yb+中12.6 GHz基态超精细跃迁的微波频率标准已经在澳大利亚国家测量研究所开发了多年。利用激光冷却离子云，在2001年测量了转换频率，精度为1014的8分之一，由于不锈钢真空室磁场的均匀性限制。我们设计并调试了一种新的无磁性、真空性能好的CrCu合金腔室。该设计结合了大型视口和高质量的石英窗，用于光学访问。在新的真空系统中，与现场不均匀性相关的不确定性现在低于1015的1分之一，这是一个显着的降低，允许在10-15的精度范围内运行。我们还演示了在初步实验中使用光电离来加载陷阱，包括同位素选择性加载

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Development of a /sup 171/Yb/sup +/ microwave frequency standard at the National Measurement Institute, Australia

Microwave frequency standards based on the 12.6 GHz ground state hyperfine transition in 171Yb+ have been under development at the National Measurement Institute, Australia, for many years. Using a laser-cooled ion cloud, the transition frequency was measured in 2001 to an accuracy of 8 parts in 1014, limited by the homogeneity of the magnetic field due to the stainless-steel vacuum chamber. We have designed and commissioned a new chamber in the alloy CrCu, which is non-magnetic and has good vacuum properties. The design incorporates large viewports and high-quality quartz windows for optical access. Uncertainties associated with field inhomogeneity in the new vacuum system are now below 1 part in 1015, a significant reduction which permits operation in the 10-15 accuracy range. We have also demonstrated the use of photoionization to load the trap in a preliminary experiment, including isotope-selective loading

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Proceedings of the 2005 IEEE International Frequency Control Symposium and Exposition, 2005.

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