Miniature trapped-ion frequency standard with ¹⁷¹Yb⁺

机译：^{171 Yb ^{+ 的微型俘获离子频率标准}}

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We describe the development and frequency instability measurements of a highly miniaturized, buffer gas cooled, trapped-ion atomic clock. The clock utilizes the 12.6 GHz hyperfine transition of the Yb ion. A custom-built 3 cm vacuum package containing the ion trap is integrated with other key elements of the atomic frequency standard, including a photo multiplier tube, miniaturized laser sources at 369 nm and 935 nm, a local oscillator, and control electronics. With the clock physics package assembled on a 10 cm × 15 cm breadboard, the long-term fractional frequency instability was measured to be 6 × 10 at 25 days of integration. Later, the clock physics package was further miniaturized, and the frequency instability was measured to be 2 × 10/τ at integration times up to 10,000 s.

机译：我们描述了高度小型化，缓冲气体冷却的俘获离子原子钟的发展和频率不稳定性测量。时钟利用Yb离子的12.6 GHz超精细跃迁。包含离子阱的定制3 cm真空包装与原子频率标准的其他关键元件集成在一起，包括光电倍增管，369 nm和935 nm的微型激光源，本地振荡器和控制电子器件。将时钟物理软件包组装在10 cm×15 cm的面包板上后，积分25天时的长期分数频率不稳定性测得为6×10。后来，时钟物理封装进一步小型化，在高达10,000 s的积分时间内测得的频率不稳定性为2×10 /τ。

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来源
《2015 Joint Conference of the IEEE International Frequency Control Symposium amp; European Frequency and Time Forum》|2015年|752-757|共6页
会议地点 Denver CO(US)
作者
Schwindt Peter D. D.; Yuan-Yu Jau; Partner Heather L.; Serkland Darwin K.; Ison Aaron; McCants Andrew; Winrow Edward; Prestage John; Kellogg James; Yu Nan; Boschen C. Daniel; Kosvin Igor; Mailloux David; Scherer David; Nelson Craig; Hati Archita; Howe Dav;
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Sandia Nat. Labs., Albuquerque, NM, USA;

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原文格式 PDF
正文语种 eng
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关键词
atomic clock; trapped ions;

机译：原子钟;被困离子;

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专利

1. Blocking Effect and Moments of Inertia of K = 1/2 Rotational Band in 171Yb [J] . YU Shao-Ying, LIU Yan-Xin, LIU Shu-Xin, 理论物理通讯（英文版） . 2004,第007期
2. Frequency comparisons and absolute frequency measurements of Yb-171(+) single-ion optical frequency standards [J] . Peik E, Lipphardt B, Schnatz H, Laser Physics: An International Journal devoted to Theoretical and Experimental Laser Research and Application . 2005,第7期

机译：Yb-171（+）单离子光学频率标准的频率比较和绝对频率测量
3. Stray-field-induced quadrupole shift and absolute frequency of the 688-THz ~(171)Yb~+ single-ionoptical frequency standard [J] . Chr. Tamm, S. Weyers, B. Lipphardt, Physical Review, A. Atomic, molecular, and optical physics . 2009,第4aPta2期

机译：杂散场引起的四极位移和688-THz〜（171）Yb〜+单离子光学频率标准的绝对频率
4. Erratum: “F-state quenching with CH4 for buffer-gas cooled 171Yb frequency standard” [AIP Adv. 5, 117209 (2015)] [J] . Y. -Y. Jau, J. D. Hunker, P. D. D. Schwindt AIP Advances . 2020,第9期

机译：错误：“具有CH4的F状态淬火，用于缓冲气体冷却的171yB频率标准”AIP ADV。 5,117209（2015）]
5. Miniature trapped-ion frequency standard with 171Yb+ [C] . Schwindt Peter D. D., Yuan-Yu Jau, Partner Heather L., Joint Conference of the IEEE International Frequency Control Symposium European Frequency and Time Forum . 2015

机译：带有 171 yb + 的微型捕获离子频率标准
6. Development and Characterization of a Ytterbium-171 Miniature Ion Trap Frequency Standard [D] . Partner, Heather L. 2012

机译：tter171微型离子阱频率标准的开发与表征
7. Systematic evaluation of a 171Yb optical clock by synchronous comparison between two lattice systems [O] . Qi Gao, Min Zhou, Chengyin Han, -1

机译：通过两个晶格系统之间的同步比较对171Yb光时钟进行系统评估
8. Development and Characterization of a 171Yb+ Miniature Ion Trap Frequency Standard [O] . Partner, Heather L. 2012

机译：171Yb +微型离子阱的研制与表征频率标准

Miniature trapped-ion frequency standard with 171Yb+

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Miniature trapped-ion frequency standard with ¹⁷¹Yb⁺