积分球与微波腔一体化装置的研制
孟艳玲, 高源慈, 郑本昌, 刘鹏, 万金银, 肖玲, 王秀梅, 成华东, 刘亮. 积分球与微波腔一体化装置的研制[J]. 中国激光, 2014, 41(9): 0918001.
Meng Yanling, Gao Yuanci, Zheng Benchang, Liu Peng, Wan Jinyin, Xiao Ling, Wang Xiumei, Cheng Huadong, Liu Liang. Design for the Integration of Integrating Sphere and Microwave Cavity[J]. Chinese Journal of Lasers, 2014, 41(9): 0918001.
[1] Esnault F X, Holleville D, Rossetto N, et al.. High-stability compact atomic clock based on isotropic laser cooling[J]. Physical Review A, 2010, 82(3): 033436.
[2] Esnault F X, Rossetto N, Holleville D, et al.. HORACE: a compact cold atom clock for Galileo[J]. Advances in Space Research, 2011, 47(5): 854-858.
[3] Valentin C, Guillot E, Guillemot C, et al.. Microwave interrogation of cesium atoms cooled in isotropic light[J]. IEEE Transactions on Instrumentation and Measurement, 2001, 50(5): 1224-1228.
[4] Esnault F X, Perrin S, Tremine S, et al.. New design of the compact cold atoms clock HORACE[C]. Proceedings of the 20th EFTF, 2006. 237-240.
[5] Cheng Huadong, Zhang Wenzhuo, Ma Hongyu, et al.. Laser cooling of rubidium atoms from background vapor in diffuse light[J]. Phys Rev A, 2009, 79(2): 023407.
[6] Wang Xucheng, Cheng Huadong, Zheng Benchang, et al.. Integrating sphere cold atom clock with cylindrical microwave cavity[C]. 2011 Joint Conference of the IEEE International IEEE, 2011: 1-3.
[7] Zheng Benchang, Cheng Huadong, Meng Yanling, et al.. Development of an integrating sphere cold atom clock[J]. Chinese Physics Letters, 2013, 30(12): 123701.
[8] 马红玉, 成华东, 张文卓, 等. 积分球内的铷原子激光冷却[J]. 物理学报, 2009, 58(3): 1569-1573.
Ma Hongyu, Cheng Huadong, Zhang Wenzhuo, et al.. Laser cooling of rubidium atoms in an integrating sphere[J]. Acta Physica Sinica, 2009, 58(3): 1569-1573.
[9] 王旭成. 积分球冷原子钟[D]. 上海: 中国科学院上海精密机械研究所, 2012. 21-24.
Wang Xucheng. Cold Atom Clock Based on Integrating Sphere[D]. Shanghai: Shanghai Institute of Optics and Fine Mechanics, Chinese Academy of Sciences, 2012. 21-24.
[10] Ketterle W, Martin A, Joffe M A, et al.. Slowing and cooling atoms in isotropic laser light[J]. Physical Review Letters, 1992, 69(17): 2483.
[11] Guillot E, Pottie P E, Dimarcq N. Three-dimensional cooling of cesium atoms in a reflecting copper cylinder[J]. Opt Lett, 2001, 26(21): 1639-1641.
[12] Yanling M, Huadong C, Benchang Z, et al.. Controlling the shape of a cold atom cloud in a cylindrical cavity[J]. Chinese Physics Letters, 2013, 30(6): 063701.
[13] 林为干. 电磁场理论[M]. 北京: 人民邮电出版社, 1984. 362-363.
Lin Weigan. Electromagnetic Field Theory[M]. Beijing: Post and Telecom Press, 1984. 362-363.
[14] 王文祥. 微波工程技术[M]. 北京: 国防工业出版社, 2009. 208-211.
Wang Wenxiang. Microwave Engineering Technology[M]. Beijing: National Defence Industry Press, 2009. 208-211.
[15] 张淑娥, 李舒毅. 微波谐振腔湿度测量同轴环耦合设计与实现[J]. 国外电子元器件, 2008, 11: 6-8.
Zhang Shue, Li Shuyi. Design and implement of microwave resonator cavity for wetness measurement coaxial ring coupling[J]. International Electronic Elements, 2008, 11: 6-8.
[16] 边风刚, 魏荣, 吕德胜, 等. 激光冷却铷原子喷泉钟的微波谐振腔设计[J]. 中国激光, 2006, 33(9): 1185-1189.
[17] 高源慈, 余国芬, 孙嘉鸿. 准光腔品质因数的标网测量与研究[J]. 强激光与粒子束, 2004, 16(4): 517-520.
孟艳玲, 高源慈, 郑本昌, 刘鹏, 万金银, 肖玲, 王秀梅, 成华东, 刘亮. 积分球与微波腔一体化装置的研制[J]. 中国激光, 2014, 41(9): 0918001. Meng Yanling, Gao Yuanci, Zheng Benchang, Liu Peng, Wan Jinyin, Xiao Ling, Wang Xiumei, Cheng Huadong, Liu Liang. Design for the Integration of Integrating Sphere and Microwave Cavity[J]. Chinese Journal of Lasers, 2014, 41(9): 0918001.