Chip-Scale Ultra-Low Field Atomic Magnetometer Based on Coherent Population Trapping

机译：基于相干群体诱捕的芯片级超低场原子磁力计

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摘要

We report a chip-scale atomic magnetometer based on coherent population trapping, which can operate near zero magnetic field. By exploiting the asymmetric population among magnetic sublevels in the hyperfine ground state of cesium, we observe that the resonance signal acquires sensitivity to magnetic field in spite of degeneracy. A dispersive signal for magnetic field discrimination is obtained near-zero-field as well as for finite fields (tens of micro-tesla) in a chip-scale device of 0.94 cm3 volume. This shows that it can be readily used in low magnetic field environments, which have been inaccessible so far in miniaturized atomic magnetometers based on coherent population trapping. The measured noise floor of 300 pT/Hz1/2 at the zero-field condition is comparable to that of the conventional finite-field measurement obtained under the same conditions. This work suggests a way to implement integrated atomic magnetometers with a wide operating range.

机译：我们报告了一种基于相干群体捕获的芯片级原子磁力计，其可以在零磁场附近运行。通过在铯的高血清地位中利用磁性悬浮液之间的不对称群体，我们观察到尽管退化，谐振信号仍然可以达到磁场的敏感性。获得磁场辨别的分散信号是接近零场以及0.94cm3体积的芯片级装置中的有限场（数十微型Tesla）。这表明它可以很容易地用于低磁场环境，其到目前为止在基于相干群体捕获的小型化原子磁力计中已经无法进入。在零场条件下的300pt / hz1 / 2的测量噪声底板与在相同条件下获得的传统有限场测量相当。这项工作表明一种实现具有宽操作范围的集成原子磁力计。

著录项

期刊名称 Sensors (Basel Switzerland)
作者
Hyun-Gue Hong; Sang Eon Park; Sang-Bum Lee; Myoung-Sun Heo; Jongcheol Park; Tae Hyun Kim; Hee Yeon Kim; Taeg Yong Kwon;
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年(卷),期 2021(21),4
年度 2021
页码 1517
总页数 10
原文格式 PDF
正文语种
中图分类
关键词
optical magnetometry; coherent population trapping; quantum sensor; chip-scale atomic device;

机译：光磁测度;相干粒度诱捕;量子传感器;芯片尺寸原子装置;

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专利

1. Microfabricated cells for chip-scale atomic clock based on coherent population trapping: Fabrication and investigation [J] . S.V. Ermak, V.V. Semenov, E.N. Piatyshev, St. Petersburg Polytechnic University Journal: Physics and Mathematics . 2015,第1期

机译：基于相干人口陷阱的用于芯片级原子钟的超细电池：制造和研究
2. Microfabricated cells for chip-scale atomic clock based on coherent population trapping: Fabrication and investigation [J] . S.V. Ermak, V.V. Semenov, E.N. Piatyshev, St. Petersburg Polytechnic University Journal: Physics and Mathematics . 2015,第1期

机译：基于相干人口陷阱的用于芯片级原子钟的超细电池：制造和研究
3. Microfabricated cells for chip-scale atomic clock based on coherent population trapping: fabrication and investigation [J] . Ermak Sergey V., Semenov Vladimir V., Piatyshev Evgenii N., St. Petersburg Polytechnic University Journal: Physics and Mathematics . 2015,第1期

机译：基于相干群体诱捕的芯片尺度原子时钟的微制造细胞：制造和调查
4. THE CHIP-SCALE ATOMIC CLOCK ― COHERENT POPULATION TRAPPING VS. CONVENTIONAL INTERROGATION [C] . R. Lutwak, D. Emmons, W. Riley, 34th Annual Precise Time and Time Interval (PTTI) Systems and Applications Meeting . 2002

机译：芯片级原子钟-相干人口捕获与常规询问
5. Application of FM spectroscopy to frequency stabilization in a modeled coherent population trapping based rubidium atomic clock system. [D] . Zhang, Duan. 2015

机译：FM光谱在基于相干人口陷阱的model原子钟系统建模中的频率稳定化中的应用。
6. Magnetoencephalography with a chip-scale atomic magnetometer [O] . T. H. Sander, J. Preusser, R. Mhaskar, 2012

机译：带有芯片级原子磁力计的脑磁图
7. Microfabricated cells for chip-scale atomic clock based on coherent population trapping: Fabrication and investigation [O] . S.V. Ermak, V.V. Semenov, E.N. Piatyshev, 2015

机译：基于相干种群捕获的芯片级原子钟微加工单元：制造和研究
8. Chip-Scale Atomic Clock - Coherent Population Trapping vs. Conventional Interrogation; Conference paper [R] . Lutwak, R., Emmons, D., Riley, W., 2003

机译：芯片级原子钟 - 相干人口陷阱与传统审讯;会议文件

Chip-Scale Ultra-Low Field Atomic Magnetometer Based on Coherent Population Trapping

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