Sympathetic Cooling of 40Ca+_37Al+ Ion Pair Crystal in a Linear Paul Trap

The 27Al+ ion optical clock is one of the most attractive optical clocks due to its own advantages such as low black-body radiation shift at room temperature and insensitivity to the magnetic drift. However, it cannot be laser-cooled directly in the absence of 167nm laser to date. This problem can b...

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Published in中国物理快报:英文版 no. 10; pp. 49 - 52
Main Author 商俊娟 崔凯枫 曹健 汪绍茂 晁思嘉 舒华林 黄学人
Format Journal Article
LanguageEnglish
Published 2016
Subjects
交感神经
激光冷却
离子对
离子晶体
精确测量
线性
辐射转移
陷阱
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Summary:The 27Al+ ion optical clock is one of the most attractive optical clocks due to its own advantages such as low black-body radiation shift at room temperature and insensitivity to the magnetic drift. However, it cannot be laser-cooled directly in the absence of 167nm laser to date. This problem can be solved by sympathetic cooling. In this work, a linear Paul trap is used to trap both 40Ca+ and 27A1+ ions simultaneously, and a single Dopplercooled 40Ca+ ion is employed to sympathetically cool a single 27A1+ ion. Thus a 'bright-dark' two-ion crystal has been successfully synthesized. The temperature of the crystal has been estimated to be about 7mK by measuring the ratio of carrier and sideband spectral intensities. Finally, the dark ion is proved to be an 27Al+ ion by precise measuring of the ion crystal's secular motion frequency, which means that it is a great step for our 2Z Al+ quantum logic clock.
Bibliography:The 27Al+ ion optical clock is one of the most attractive optical clocks due to its own advantages such as low black-body radiation shift at room temperature and insensitivity to the magnetic drift. However, it cannot be laser-cooled directly in the absence of 167nm laser to date. This problem can be solved by sympathetic cooling. In this work, a linear Paul trap is used to trap both 40Ca+ and 27A1+ ions simultaneously, and a single Dopplercooled 40Ca+ ion is employed to sympathetically cool a single 27A1+ ion. Thus a 'bright-dark' two-ion crystal has been successfully synthesized. The temperature of the crystal has been estimated to be about 7mK by measuring the ratio of carrier and sideband spectral intensities. Finally, the dark ion is proved to be an 27Al+ ion by precise measuring of the ion crystal's secular motion frequency, which means that it is a great step for our 2Z Al+ quantum logic clock.
11-1959/O4
ISSN:0256-307X
1741-3540