<del id="5lnrt"></del>
<cite id="5lnrt"></cite>
<ins id="5lnrt"><span id="5lnrt"></span></ins>
<cite id="5lnrt"><video id="5lnrt"></video></cite><var id="5lnrt"></var><cite id="5lnrt"></cite>
<ins id="5lnrt"><video id="5lnrt"></video></ins> <cite id="5lnrt"><video id="5lnrt"></video></cite><cite id="5lnrt"></cite>
<ins id="5lnrt"></ins>
<cite id="5lnrt"><video id="5lnrt"><menuitem id="5lnrt"></menuitem></video></cite>
<var id="5lnrt"></var>
<var id="5lnrt"><video id="5lnrt"></video></var>
<menuitem id="5lnrt"><strike id="5lnrt"></strike></menuitem>
<cite id="5lnrt"><span id="5lnrt"></span></cite>
<cite id="5lnrt"><video id="5lnrt"><menuitem id="5lnrt"></menuitem></video></cite>
<span id="5lnrt"></span>
<cite id="5lnrt"><video id="5lnrt"><var id="5lnrt"></var></video></cite>
<cite id="5lnrt"></cite>
<cite id="5lnrt"></cite>
<cite id="5lnrt"></cite>
<var id="5lnrt"><video id="5lnrt"></video></var>
<var id="5lnrt"><video id="5lnrt"><menuitem id="5lnrt"></menuitem></video></var>
<var id="5lnrt"></var><ins id="5lnrt"><video id="5lnrt"></video></ins>
<cite id="5lnrt"></cite>
<ins id="5lnrt"></ins>
<cite id="5lnrt"><span id="5lnrt"><var id="5lnrt"></var></span></cite><cite id="5lnrt"></cite>
<listing id="5lnrt"><strike id="5lnrt"><progress id="5lnrt"></progress></strike></listing>
<cite id="5lnrt"></cite>
<menuitem id="5lnrt"><video id="5lnrt"></video></menuitem>
<cite id="5lnrt"><video id="5lnrt"><menuitem id="5lnrt"></menuitem></video></cite><menuitem id="5lnrt"></menuitem>
<var id="5lnrt"></var>
<var id="5lnrt"></var>
<var id="5lnrt"></var>
<var id="5lnrt"><video id="5lnrt"></video></var>
首页 > 论文 > 光学学报 > 39卷 > 1期(pp:112001--1)

基于圆偏振探测光的光纤原子自旋进动检测技术

Detection Method of Fiber Atomic Spin Precession Based on Circularly Polarized Probe Light

  • 摘要
  • 论文信息
  • 参考文献
  • 被引情况
  • PDF全文
分享:

摘要

分析了极化碱金属气室的旋光特性, 极化的原子气室宏观上可等效为一种法拉第旋光晶体, 其旋光系数与原子自旋进动相关。提出了采用圆偏振探测光测?#23458;?#36807;气室的左右旋圆偏振光相位差来实现原子自旋进动检测的思路。基于改进的全光纤反射型Sagnac干涉仪, 搭建了光纤原子自旋进动检测系统, 通过圆偏振探测光实现了无自旋交换弛豫态自旋进动信号的检测。在原子自旋陀螺仪实验平台上进行了实验验证并实现了陀螺效应, 实验结果证明了所提理论的正确性。对陀螺性能进行了初步测试, 得到其零偏不稳定性为0.29 (°)/h。

Abstract

The optical rotation property of a polarized alkali vapor cell is demonstrated. The polarized atomic gas chamber can be macroscopically equivalent to a Faraday polarized crystal, whose optical rotation coefficient is related to the spin precession of atoms. A novel atomic spin precession detection scheme is proposed by means of the detection of the phase difference between the left and the right circularly polarized probe lights when a circularly polarized probe light is propagating through the vapor cell. Based on the modified all-fiber reflective Sagnac interferometer, the fiber atomic spin precession detection system is built and the detection of spin precession signals in the spin exchanged relaxation free states is realized by a circularly polarized light. The detection scheme is verified and the gyroscopic effect is realized on the experimental platform of an atomic spin gyroscope. The experimental results confirm that the proposed theory is correct. The performance of this gyroscope is preliminarily tested and its zero-bias instability is 0.29 (°)/h.

Newport宣传-MKS新实验室计划
补充资料

中图分类号:TB133

DOI:10.3788/aos201939.0112001

所属?#25913;浚?a href='../Journals/JColumnList?cid=350' title='查看该期刊此?#25913;?#19979;其他论文' class='TagKey' target='_blank'>仪器,测量与计量

基金项目:国家自然科学基金(U1637106,61227902)、创新团队发展计划(IRT1203)

收稿日期:2018-06-22

修改稿日期:2018-08-21

网络出版日期:2018-09-05

作者单位    点击查看

杨远洪:?#26412;?#33322;空航天大学仪器科学与光电工程学院, ?#26412;?100191
刘琳妮:?#26412;?#33322;空航天大学仪器科学与光电工程学院, ?#26412;?100191
陈东营:?#26412;?#33322;空航天大学仪器科学与光电工程学院, ?#26412;?100191
杨福铃:?#26412;?#33322;空航天大学仪器科学与光电工程学院, ?#26412;?100191
全伟:?#26412;?#33322;空航天大学仪器科学与光电工程学院, ?#26412;?100191
房建成:?#26412;?#33322;空航天大学仪器科学与光电工程学院, ?#26412;?100191

联系人作者:杨远洪([email protected])

【1】Cronin A D, Schmiedmayer J, Pritchard D E. Optics and interferometry with atoms and molecules[J]. Reviews of Modern Physics, 2009, 81(3): 1051-1129.

【2】Kominis I K, Kornack T W, Allred J C, et al. A subfemtotesla multichannel atomic magnetometer[J]. Nature, 2003, 422(6932): 596-599.

【3】Colombo A P, Carter T R, Borna A, et al. Four-channel optically pumped atomic magnetometer for magnetoencephalography[J]. Optics Express, 2016, 24(14): 15403-15416.

【4】Chen B T, Jiang M, Ji Y L, et al. Spin exchange relaxation free atomic magnetometer for zero-field nuclear magnetic resonance detection[J]. Chinese Journal of Lasers, 2017, 44(10): 1104001.
陈伯韬, 江敏, 季云兰, 等. 用于零场核磁共振探测的无自旋交换弛豫原子磁力仪[J].中国激光, 2017, 44(10): 1104001.

【5】Kornack T W, Ghosh R K, Romalis M V. Nuclear spin gyroscope based on an atomic comagnetometer[J]. Physical Review Letters, 2005, 95(23): 230801.

【6】Kamada K, Ito Y, Ichihara S, et al. Noise reduction and signal-to-noise ratio improvement of atomic magnetometers with optical gradiometer configurations[J]. Optics Express, 2015, 23(5): 6976-6987.

【7】Allred J C, Lyman R N, Kornack T W, et al. High-sensitivity atomic magnetometer unaffected by spin-exchange relaxation[J]. Physical Review Letters, 2002, 89(13): 130801.

【8】Hu Y H, Hu Z H, Liu X J, et al. Reduction of far off-resonance laser frequency drifts based on the second harmonic of electro-optic modulator detection in the optically pumped magnetometer[J]. Applied Optics, 2017, 56(21): 5927-5932.

【9】Fan W F, Liu G, Li R J, et al. A three-axis atomic magnetometer for temperature-dependence measurements of fields in a magnetically shielded environment[J]. Measurement Science and Technology, 2017, 28(9): 095007.

【10】Ding Z C, Long X W, Yuan J, et al. Sensitive determination of the spin polarization of optically pumped alkali-metal atoms using near-resonant light[J]. Scientific Reports, 2016, 6: 32605.

【11】Sheng D, Li S, Dural N, et al. Subfemtotesla scalar atomic magnetometry using multipass cells[J]. Physical Review Letters, 2013, 110(16): 160802.

【12】Happer W, Mathur B S. Off-resonant light as a probe of optically pumped alkali vapors[J]. Physical Review Letters, 1967, 18(15): 577-580.

【13】Seltzer S J. Developments in alkali-metal atomic magnetometry[D]. Princeton: Princeton University, 2008: 38-44.

【14】Blake J, Tantaswadi P, de Carvalho R T. In-line Sagnac interferometer current sensor[J]. IEEE Transactions on Power Delivery, 1996, 11(1): 116-121.

【15】Zhang W X. Fiber optic gyroscope and application[M]. Beijing: National Defense Industry Press, 2008: 98-119.
张维叙. 光纤陀螺及其应用[M]. ?#26412;? 国防工业出版社, 2008: 98-119.

【16】Qin J, Fang J C, Wan S A. Experimental design of a dual axis atomic spin gyroscope[C]. 8th IEEE International Symposium on Instrumentation and Control Technology (ISICT), 2012: 24-27.

【17】Chu Z Y, Sun X G, Wan S A, et al. Active magnetic compensation of spin-exchange-relaxation-free atomic magnetometer[J]. Optics and Precision Engineering, 2014, 22(7): 1808-1813.
楚中毅, 孙晓光, 万双爱, 等. 无自旋交换弛豫原子磁强计的主动磁补偿[J]. 光学 精密工程, 2014, 22(7): 1808-1813.

引用该论文

Yang Yuanhong,Liu Linni,Chen Dongying,Yang Fuling,Quan Wei,Fang Jiancheng. Detection Method of Fiber Atomic Spin Precession Based on Circularly Polarized Probe Light[J]. Acta Optica Sinica, 2019, 39(1): 0112001

杨远洪,刘琳妮,陈东营,杨福铃,全伟,房建成. 基于圆偏振探测光的光纤原子自旋进动检测技术[J]. 光学学报, 2019, 39(1): 0112001

被引情况

【1】 陈东营, 杨远洪, 王中亮, 刘峰, 姜丽伟, 全伟, 房建成. 无自旋交换弛豫原子自旋陀螺非线性特性实验研究. 光学学报, 2019, 39(8): 806004--1

您的浏览器不支持PDF插件,请使用最新的(Chrome/Fire Fox等)浏览器.或者您还可以点击此处下载该论文PDF

<del id="5lnrt"></del>
<cite id="5lnrt"></cite>
<ins id="5lnrt"><span id="5lnrt"></span></ins>
<cite id="5lnrt"><video id="5lnrt"></video></cite><var id="5lnrt"></var><cite id="5lnrt"></cite>
<ins id="5lnrt"><video id="5lnrt"></video></ins> <cite id="5lnrt"><video id="5lnrt"></video></cite><cite id="5lnrt"></cite>
<ins id="5lnrt"></ins>
<cite id="5lnrt"><video id="5lnrt"><menuitem id="5lnrt"></menuitem></video></cite>
<var id="5lnrt"></var>
<var id="5lnrt"><video id="5lnrt"></video></var>
<menuitem id="5lnrt"><strike id="5lnrt"></strike></menuitem>
<cite id="5lnrt"><span id="5lnrt"></span></cite>
<cite id="5lnrt"><video id="5lnrt"><menuitem id="5lnrt"></menuitem></video></cite>
<span id="5lnrt"></span>
<cite id="5lnrt"><video id="5lnrt"><var id="5lnrt"></var></video></cite>
<cite id="5lnrt"></cite>
<cite id="5lnrt"></cite>
<cite id="5lnrt"></cite>
<var id="5lnrt"><video id="5lnrt"></video></var>
<var id="5lnrt"><video id="5lnrt"><menuitem id="5lnrt"></menuitem></video></var>
<var id="5lnrt"></var><ins id="5lnrt"><video id="5lnrt"></video></ins>
<cite id="5lnrt"></cite>
<ins id="5lnrt"></ins>
<cite id="5lnrt"><span id="5lnrt"><var id="5lnrt"></var></span></cite><cite id="5lnrt"></cite>
<listing id="5lnrt"><strike id="5lnrt"><progress id="5lnrt"></progress></strike></listing>
<cite id="5lnrt"></cite>
<menuitem id="5lnrt"><video id="5lnrt"></video></menuitem>
<cite id="5lnrt"><video id="5lnrt"><menuitem id="5lnrt"></menuitem></video></cite><menuitem id="5lnrt"></menuitem>
<var id="5lnrt"></var>
<var id="5lnrt"></var>
<var id="5lnrt"></var>
<var id="5lnrt"><video id="5lnrt"></video></var>
玩快三稳赚技巧口诀
<del id="5lnrt"></del>
<cite id="5lnrt"></cite>
<ins id="5lnrt"><span id="5lnrt"></span></ins>
<cite id="5lnrt"><video id="5lnrt"></video></cite><var id="5lnrt"></var><cite id="5lnrt"></cite>
<ins id="5lnrt"><video id="5lnrt"></video></ins> <cite id="5lnrt"><video id="5lnrt"></video></cite><cite id="5lnrt"></cite>
<ins id="5lnrt"></ins>
<cite id="5lnrt"><video id="5lnrt"><menuitem id="5lnrt"></menuitem></video></cite>
<var id="5lnrt"></var>
<var id="5lnrt"><video id="5lnrt"></video></var>
<menuitem id="5lnrt"><strike id="5lnrt"></strike></menuitem>
<cite id="5lnrt"><span id="5lnrt"></span></cite>
<cite id="5lnrt"><video id="5lnrt"><menuitem id="5lnrt"></menuitem></video></cite>
<span id="5lnrt"></span>
<cite id="5lnrt"><video id="5lnrt"><var id="5lnrt"></var></video></cite>
<cite id="5lnrt"></cite>
<cite id="5lnrt"></cite>
<cite id="5lnrt"></cite>
<var id="5lnrt"><video id="5lnrt"></video></var>
<var id="5lnrt"><video id="5lnrt"><menuitem id="5lnrt"></menuitem></video></var>
<var id="5lnrt"></var><ins id="5lnrt"><video id="5lnrt"></video></ins>
<cite id="5lnrt"></cite>
<ins id="5lnrt"></ins>
<cite id="5lnrt"><span id="5lnrt"><var id="5lnrt"></var></span></cite><cite id="5lnrt"></cite>
<listing id="5lnrt"><strike id="5lnrt"><progress id="5lnrt"></progress></strike></listing>
<cite id="5lnrt"></cite>
<menuitem id="5lnrt"><video id="5lnrt"></video></menuitem>
<cite id="5lnrt"><video id="5lnrt"><menuitem id="5lnrt"></menuitem></video></cite><menuitem id="5lnrt"></menuitem>
<var id="5lnrt"></var>
<var id="5lnrt"></var>
<var id="5lnrt"></var>
<var id="5lnrt"><video id="5lnrt"></video></var>
<del id="5lnrt"></del>
<cite id="5lnrt"></cite>
<ins id="5lnrt"><span id="5lnrt"></span></ins>
<cite id="5lnrt"><video id="5lnrt"></video></cite><var id="5lnrt"></var><cite id="5lnrt"></cite>
<ins id="5lnrt"><video id="5lnrt"></video></ins> <cite id="5lnrt"><video id="5lnrt"></video></cite><cite id="5lnrt"></cite>
<ins id="5lnrt"></ins>
<cite id="5lnrt"><video id="5lnrt"><menuitem id="5lnrt"></menuitem></video></cite>
<var id="5lnrt"></var>
<var id="5lnrt"><video id="5lnrt"></video></var>
<menuitem id="5lnrt"><strike id="5lnrt"></strike></menuitem>
<cite id="5lnrt"><span id="5lnrt"></span></cite>
<cite id="5lnrt"><video id="5lnrt"><menuitem id="5lnrt"></menuitem></video></cite>
<span id="5lnrt"></span>
<cite id="5lnrt"><video id="5lnrt"><var id="5lnrt"></var></video></cite>
<cite id="5lnrt"></cite>
<cite id="5lnrt"></cite>
<cite id="5lnrt"></cite>
<var id="5lnrt"><video id="5lnrt"></video></var>
<var id="5lnrt"><video id="5lnrt"><menuitem id="5lnrt"></menuitem></video></var>
<var id="5lnrt"></var><ins id="5lnrt"><video id="5lnrt"></video></ins>
<cite id="5lnrt"></cite>
<ins id="5lnrt"></ins>
<cite id="5lnrt"><span id="5lnrt"><var id="5lnrt"></var></span></cite><cite id="5lnrt"></cite>
<listing id="5lnrt"><strike id="5lnrt"><progress id="5lnrt"></progress></strike></listing>
<cite id="5lnrt"></cite>
<menuitem id="5lnrt"><video id="5lnrt"></video></menuitem>
<cite id="5lnrt"><video id="5lnrt"><menuitem id="5lnrt"></menuitem></video></cite><menuitem id="5lnrt"></menuitem>
<var id="5lnrt"></var>
<var id="5lnrt"></var>
<var id="5lnrt"></var>
<var id="5lnrt"><video id="5lnrt"></video></var>
快乐12开奖号码 北京快3官网下载 海南飞鱼游戏开奖结果 幸运农场怎么买就稳赢 湖北快三开奖结果查询结果百度 2017历史3d开奖结果 重庆福彩幸运农场官方 北京十一选五最好遗漏 浙江体彩6十1说明 江苏快三4码预测 pk10笨人买法 广东36选7开奖结果今晚 21点规则入口 广东彩票快乐十分走势图 四川快乐12预测一定牛网