Coherent population trapping magnetometer by differential detecting magneto–optic rotation effect 被引量：2

Coherent population trapping magnetometer by differential detecting magneto–optic rotation effect

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摘要 A pocket coherent population trapping（CPT） atomic magnetometer scheme that uses a vertical cavity surface emitting laser as a light source is proposed and experimentally investigated.Using the differential detecting magneto–optic rotation effect,a CPT spectrum with the background canceled and a high signal-to-noise ratio is obtained.The experimental results reveal that the sensitivity of the proposed scheme can be improved by half an order,and the ability to detect weak magnetic fields is extended one-fold.Therefore,the proposed scheme is suited to realize a pocket-size CPT magnetometer. A pocket coherent population trapping（CPT） atomic magnetometer scheme that uses a vertical cavity surface emitting laser as a light source is proposed and experimentally investigated.Using the differential detecting magneto–optic rotation effect,a CPT spectrum with the background canceled and a high signal-to-noise ratio is obtained.The experimental results reveal that the sensitivity of the proposed scheme can be improved by half an order,and the ability to detect weak magnetic fields is extended one-fold.Therefore,the proposed scheme is suited to realize a pocket-size CPT magnetometer.

作者张樊田原张奕顾思洪

机构地区 Key Laboratory of Atomic Frequency Standards

出处《Chinese Physics B》 SCIE EI CAS CSCD 2016年第9期355-358,共4页 中国物理B（英文版）

基金 Project supported by the National Natural Science Foundation of China(Grant Nos.11304362 and 61434005)

关键词 coherent population trapping atomic magnetometer magneto–optic rotation effect coherent population trapping atomic magnetometer magneto–optic rotation effect

分类号 TM936 [电气工程—电力电子与电力传动]

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1Kirschvink J L, Maine A T and Vali H 1997 Science 275 1629.
2Harry G M, Jin I, Paik H J, Stevenson T R and Wellstood F C 2000 Appl. Phys. Lett. 76 1446.
3Baule G and Mcfee R 1963 Am. Heart J. 66 95.
4Hamalainen M, Hari R, Ilmoniemi R J, Knuutila J and Lounasmaa O V 1993 Rev. Mod. Phys. 65 413.
5Affolderbach C, Stahler M, Knappe S and Wynands R 2002 Appl. Phys. B 75 605.
6Cartaleva S, Karaulanov T, Petrov N, Slavov D, Vaseva K, Yanev A, Mijailovic M, Grujic Z and Jelenkovic B 2007 Acta Phys. Pol. A 112 871.
7Pustelny S, Wojciechowski A, Kotyrba M, Sycz K, Zachorowski J, Gawlik W, Cingoz A, Leefer N, Higbie J M, Corsini E, Ledbetter M P, Rochester S M, Sushkov A O and Budker D 2007 14$th International School on Quantum Electronics: Laser Physics and Applications, September 18-22, 2006, Sunny Beach, Bulgaria, p. 60404.
8Schwindt P D D, Knappe S, Shah V, Hollberg L, Kitching J, Liew L A and Moreland J 2004 Appl. Phys. Lett. 85 6409.
9Liu G B and Gu S H 2010 J. Phys. B-At. Mol. Opt. Phys. 43 035004.
10Liang S Q, Yang G Q, Xu Y F, Lin Q, Liu Z H and Chen Z X 2014 Opt. Express 22 6837.

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1刘国宾,杜润昌,刘朝阳,顾思洪.CPT Magnetometer with Atomic Energy Level Modulation[J].Chinese Physics Letters,2008,25(2):472-474. 被引量：4
2曹远洪,何庆,杨林.芯片原子钟——CPT钟研究进展[J].电讯技术,2010,50(6):125-131. 被引量：9
3董海峰,房建成,周斌权,秦杰,万双爱.MEMS原子自旋陀螺气室芯片加工设备与工艺研究[J].仪器仪表学报,2010,31(11):2592-2596. 被引量：5
4杨晶,刘国宾,顾思洪.平行线偏光激发CPT共振方案实验研究[J].物理学报,2012,61(4):123-127. 被引量：3
5汪中.Review of chip-scale atomic clocks based on coherent population trapping[J].Chinese Physics B,2014,23(3):47-58. 被引量：10
6刘类骥,赵海清,曹远洪.一种芯片原子钟专用锁相倍频器研究与设计实现[J].宇航计测技术,2014,34(1):37-41. 被引量：5
7石铭.基于激光源的高准确度He-Cs光泵磁力仪研究[J].中国电子科学研究院学报,2019,14(1):107-110. 被引量：1
8孙兵锋,安芳芳,王植彬,杜伦宇,曹远洪,杨林.铯光泵原子磁强计研制进展[J].导航定位与授时,2017,4(5):65-69. 被引量：2
9伏吉庆,张伟.高准确度铯-氦光泵磁强计的粒子数密度配比研究[J].中国测试,2018,44(2):1-5. 被引量：3
10杨云,周鹰,包忠.霍尔磁强计温度特性校准装置的研究[J].宇航计测技术,2018,38(1):37-41. 被引量：1

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1韩振海,丁冬生.Image transfer through coherent population trapping based on an atomic ensemble[J].Chinese Physics B,2016,25(12):247-249.
2杨爱林,杨国卿,徐云飞,林强.High contrast atomic magnetometer based on coherent population trapping[J].Chinese Physics B,2014,23(2):477-480. 被引量：2
3东芝携NEC开发高速MRAM[J].电子测试（新电子）,2006(4):98-98.
4高松,盛新志,冯震,吴重庆,董宏辉.基于半导体光放大器中非线性偏振旋转效应单一光缓存环全光时隙交换处理能力研究[J].物理学报,2014,63(8):190-195. 被引量：2
5段嫔香,陈立功,张尚剑,周晓丽,刘永智,刘永.基于半导体光放大器偏振自旋转的全光2R再生[J].科学通报,2009,54(20):3050-3053. 被引量：1
6YANG Jian-qiang.Design of 8-like Non-planar Cavity[J].Semiconductor Photonics and Technology,2008,14(4):229-233. 被引量：1
7杨爱林,杨国卿,蔡勋明,徐云飞,林强.A laser pump-re-pump atomic magnetometer[J].Chinese Physics B,2013,22(12):177-181. 被引量：2
8激光科研应用[J].中国光学,1998(6):22-22.
9刘智,王杰英,刁文婷,何军,王军民.Characterizing passive coherent population trapping resonance in a cesium vapor cell filled with neon buffer gas[J].Chinese Physics B,2013,22(4):232-236. 被引量：1
10Mehdi Riahinasab,Vahid Ahmadi,Elham Darabi.Simplified modeling of frequency behavior in photonic crystal vertical cavity surface emitting laser with tunnel injection quantum dot in active region[J].Chinese Physics B,2017,26(2):260-267.

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Coherent population trapping magnetometer by differential detecting magneto–optic rotation effect 被引量：2

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