从装载光学糖蜜的3D MOT中收集原子的新型NIM6喷泉的设计

时间频率公报 Pub Date : 2015-04-12 DOI:10.1109/FCS.2015.7138891

F. Fang, Weiliang Chen, Kun Liu, Nianfeng Liu, R. Suo, Tian-chu Li

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引用次数: 5

摘要

我们报道了一种新的铯喷泉钟NIM6的设计，它正在NIM建设中。此外，还对真空系统、拉姆齐腔和微波合成器进行了改进，以降低B型不确定度。NIM6的另一个主要改进是从MOT加载光学糖蜜和光泵浦中收集更多的原子，从而在检测时获得更好的信噪比。与加载光学糖蜜的二维MOT相比，原子分布将更加均匀，并且在冷却过程中可以通过光的强度和失谐来调节云的直径，以保持低碰撞引起的频移。通过一种新的脱抽运-光抽运方法，可以将原子直接抽运到F=3, mF=0>时钟态，从而进一步提高原子序数。NIM6采用一种基于低温蓝宝石振荡器(CSO)的新型频率合成器，旨在达到量子投影噪声，从而与NIM5相比降低a型不确定性。

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Design of the new NIM6 fountain with collecting atoms from a 3D MOT loading optical molasses

We report the design of a new cesium fountain clock NIM6, which is under construction in NIM. Besides some improvements on the vacuum system, Ramsey cavity and microwave synthesizer to reduce the Type B uncertainty. Another major improvement on NIM6 is to collect more atoms from a MOT loading optical molasses and optical pumping to get a better signal to noise ratio at the detection. The atom distribution will be more uniform compared with a 2D MOT loading optical molasses, and the diameter of the cloud can be adjusted by the intensity and detuning of lights during the post cooling to keep the collisional-induced frequency shift low. The atom numbers can be further increased by a new de-pumping - optical pumping procedure to pump atoms to the |F=3, mF=0> clock state directly. With a new cryogenic sapphire oscillator (CSO) based frequency synthesizer, NIM6 is aiming to reach the quantum projection noise, thus leading to a reduced Type A uncertainty compared with NIM5.

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时间频率公报

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