Magneto-optic trap using a reversible, solid-state alkali-metal source

Kang S.; Moore K. R.; McGilligan J. P.; Mott R.; Mis A.; Roper C.; Donley E. A.; Kitching J.

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Magneto-optic trap using a reversible, solid-state alkali-metal source

机译：磁光陷阱使用可逆，固态碱金属源

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We demonstrate a novel way to form and deplete a vapor-cell magneto-optic trap (MOT) using a reversible, solid-state alkali-metal source via an applied polarized voltage. Using similar to 100 mW of electrical power, a trapped-atom number of 5 x 10(6) has been achieved, starting from near zero and the timescales of the MOT formation and depletion of similar to 1 s. This fast, reversible, and low-power alkali-atom source is desirable in both tabletop and portable cold-atom systems. The core technology of this device should translate readily to other alkali and alkaline-earth elements that could find a wide range of uses in cold-atom systems and instruments. (C) 2019 Optical Society of America

机译：我们展示了一种新颖的方式来形成通过施加的偏振电压的可逆固态碱金属源形成和消耗蒸汽细胞磁光阱（MOT）。使用类似于100兆瓦的电力，已经实现了5×10（6）的被捕获的原子数，从零零开始，MOT形成的时间表和类似于1 s的耗尽。这种快速，可逆和低功耗的碱性原子源是可取的，在桌面和便携式的冷原子系统中是可取的。该装置的核心技术应容易地转化为其他碱和碱土元素，可以在冷原子系统和仪器中找到广泛的用途。（c）2019年光学学会

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《Optics Letters》 |2019年第12期|共4页
作者
Kang S.; Moore K. R.; McGilligan J. P.; Mott R.; Mis A.; Roper C.; Donley E. A.; Kitching J.;
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NIST Boulder CO 80305 USA;

NIST Boulder CO 80305 USA;

NIST Boulder CO 80305 USA;

HRL Labs LLC Malibu CA 90265 USA;

HRL Labs LLC Malibu CA 90265 USA;

HRL Labs LLC Malibu CA 90265 USA;

NIST Boulder CO 80305 USA;

NIST Boulder CO 80305 USA;

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正文语种 eng
中图分类计量学;光学;
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专利

1. Magneto-optic trap using a reversible, solid-state alkali-metal source [J] . Kang S., Moore K. R., McGilligan J. P., Optics Letters . 2019,第12期

机译：磁光陷阱使用可逆，固态碱金属源
2. Loading of a Rb magneto-optic trap from a getter source - art. no. 023402 [J] . Rapol UD., Natarajan V., Wasan A. Physical Review, A. Atomic, molecular, and optical physics . 2001,第2期

机译：从吸气剂源装载Rb磁光阱-艺术。没有。 023402
3. Efficient solid-state emission and reversible mechanofluorochromism of a tetraphenylethene-pyrene-based beta-diketonate boron complex [J] . Sun Ting, Zhao Feng, Xi Gaolei, RSC Advances . 2019,第34期

机译：基于四苯基乙烯 - 芘的β-二酮硼络合物的高效固态发射和可逆机械荧光体
4. Optical trapping assisted enhancement of on-chip single molecule detection rate with a solid-state nanopore [C] . M. Rahman, M. Harrington, M. A. Stott, IEEE Photonics Conference . 2017

机译：固态纳米孔的光阱辅助提高芯片上单分子检测率
5. Low-velocity matter-wave source for atom interferometry produced by Zeeman-tuned laser cooling and magneto-optic trapping [D] . Mayer, Shannon Kathleen. 1997

机译：塞曼调谐激光冷却和磁光阱产生的用于原子干涉的低速物质波源
6. Snapshots of a solid-state transformation: coexistence of three phases trapped in one crystal [O] . G. Aromí, C. M. Beavers, J. Sánchez Costa, 2016

机译：固态转变的快照：陷在一个晶体中的三相共存
7. Low-velocity matter wave source for atom interferometry produced by Zeeman-tuned laser cooling and magneto-optic trapping [O] . 1997

机译：塞曼调谐激光冷却和磁光阱产生的用于原子干涉的低速物质波源
8. Magneto-Optic Effects on the Emission of Self Trapped Excitons Perturbed by Na Sup(+) Impurity in CsI:Na Crystals [R] . von der Weid, J. P., Aegerter, M. A. 1978

机译：磁光对CsI：Na晶体中Na sup（+）杂质扰动的自陷激子发射的影响

Magneto-optic trap using a reversible, solid-state alkali-metal source

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