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基于KTP键合晶体的Hansch-Couillaud双波长外腔频率锁定机理

闫晓娟 李志新 张永智 王乐 胡志裕 马维光 张雷 尹王保 贾锁堂

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基于KTP键合晶体的Hansch-Couillaud双波长外腔频率锁定机理

闫晓娟, 李志新, 张永智, 王乐, 胡志裕, 马维光, 张雷, 尹王保, 贾锁堂

The Hansch-Couillaud frequency locking mechanism of dual-wavelength external cavity resonance system based on diffusion bonded KTP crystal

Yan Xiao-Juan, Li Zhi-Xin, Zhang Yong-Zhi, Wang Le, Hu Zhi-Yu, Ma Wei-Guang, Zhang Lei, Yin Wang-Bao, Jia Suo-Tang
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  • 基于KTP键合晶体采用Hansch-Couillaud频率锁定技术实现了双波长外腔同时共振,理论和实验上分别研究了基于键合KTP晶体的HC频率锁定方案. 研究表明,与采用单KTP晶体的结果相比,采用键合KTP晶体进行HC锁频时,能将激光频率分别锁定到e1光或e2光的共振峰值. 实验中将环形腔腔模频率锁定到938nm激光器的输出频率上,1583nm激光器的输出频率锁定到环形腔腔模频率上,从而实现了三者之间的相位关联锁定.
    Dual-wavelength external cavity resonance is achieved by Hansch-Couillaud(HC) frequency locking technology based on diffusion bonded KTP crystal. The HC frequency locking scheme based on diffusion bonded KTP crystal is analyzed theoretically and experimentally. The results show that the laser frequency can be locked to the resonance peak of e1-light or e2-light, compared with the results of a single KTP crystal. The longitude mode frequency of bow-tie cavity is locked at the frequency of 938nm laser firstly, and then the longitude mode frequency of bow-tie cavity is locked at the frequency of 1583 nm laser. The phase correlated locking of three components is realized.
    • 基金项目: 国家重点基础研究发展计划(批准号:2006CB921603)、国家高技术研究发展计划(批准号:2009AA063006)、国家基金创新团队(批准号:60821004)、国家自然科学基金(批准号:10934004,60908019)、山西省青年科学基金(批准号:2010021003-3)和山西省高等学校优秀创新团队支持计划和山西省高等学校中青年拔尖创新人才支持计划资助的课题.
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    Cui Q J, Xu Y T, Zong N, Lu Y F, Cheng X K, Peng Q J, Bo Y, Cui D F, Xu Z Y 2009 Acta Phys. Sin. 58 3 (in Chinese) [崔前进、徐一汀、宗 楠、鲁远甫、程贤坤、彭钦军、薄 勇、崔大复、许祖彦 2009 物理学报 58 3]

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  • [1]

    Mimoun E, De Sarlo L, Zondy J J, Dalibard J, Gerbier F 2009 Phys. Opt. 37 10

    [2]

    Kumagai H 2007 Opt. Lett. 32 1

    [3]

    Kumagai H, Asakawa Y, Fujii T, Midorikawa K, Obara M 2001 Riken Review 33

    [4]

    Kaneda Y, Kubota S 1995 Opt. Lett. 20 21

    [5]

    Bienfang J C, Denman C A, Grime B W, Hillman P D, Moore G T, Telle J M 2003 Opt. Lett. 28 22

    [6]

    Denman C A, Hillman P D, Moore G T, Telle J M, Preston J E, Drummond J D, Fugate R Q 2005 Advanced Solid-State Photonics

    [7]

    Drever R W P, Hall J L, Kowalski F V, Hough J, Ford G M, Munley A J, Ward H 1983 Appl. Phys. B 31 97

    [8]

    Hansch T W, Couillaud B 1980 Opt. Commun. 35 3

    [9]

    Boon-Engering J M, Van der Veer W E, Bente E A J M, Hogervorst W 1997 Opt. Commun. 140

    [10]

    Gharavi M, Lehnasch G, Buckley S G 2001 2nd Joint Meeting of the US Sections of the Combustion Institute March

    [11]

    Cui Q J, Xu Y T, Zong N, Lu Y F, Cheng X K, Peng Q J, Bo Y, Cui D F, Xu Z Y 2009 Acta Phys. Sin. 58 3 (in Chinese) [崔前进、徐一汀、宗 楠、鲁远甫、程贤坤、彭钦军、薄 勇、崔大复、许祖彦 2009 物理学报 58 3]

    [12]

    Liu J, Xie C D, Lian Y M, Gao J R, Peng K C 1991 Acta Optica Sinica 11 5 (in Chinese) [刘 晶、谢常德、廉毅敏、郜江瑞、彭堃墀 1991 光学学报 11 5]

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出版历程
  • 收稿日期:  2010-12-22
  • 修回日期:  2011-01-17
  • 刊出日期:  2011-05-05

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