[1] . 光钟[J]. 物理, 2008, 37(10): 716-719.

    . Optical clock[J]. Physics, 2008, 37(10): 716-719.

[2] . . Accuracy evaluation of an optical lattice clock with bosonic atoms[J]. Opt. Lett., 2007, 32(13): 1812-1817.

[3] 费立刚,朱均,张书练. 光学频率标准与光钟的实现[J]. 光学与光电技术,2006,4(6):55-59

    Fei Ligang,Zhu Jun,Zhang Shulian. Optical frequency standard and realization of optical clock[J]. Optics & Optoelectronic Technology,2006,4(6):55-59

[4] 王育竹. 激光冷却以及在科学技术中的应用[J]. 物理学进展,2005,25(4):347-355

    Wang Yuzhu. Laser cooling and its applications in science and technology [J]. Progress in Physics,2005,25(4):347-355

[5] . 钙原子束光学Ramsey实验的初步工作[J]. 时间频率学报, 2006, 29(1): 58-64.

    . . Preliminary work on calcium beam optical ramsey experiment[J]. J. Time and Frequency, 2006, 29(1): 58-64.

[6] 高克林. 离子光频标的研究进展和空间应用展望[J]. 物理,2008,37(10):720-728

    Gao Kelin. The progress and space applications prospects of ion frequency standards [J]. Physics,2008,37(10):720-728

[7] . . Cooling induced by parametric resonance in a magnetic quadrupole trap[J]. Chin. Opt. Lett., 2008, 6(2): 87-89.

[8] . . Magnetic quantum phase transition of cold atoms in an optical lattice[J]. Phys. Rev. A, 2007, 76(4): 043618-1.

[9] 王义遒. 原子的激光冷却与陷俘[M]. 北京:北京大学出版社,2007. 374-383

    Wang Yiqiu. Laser Cooling and Trapping of Atoms [M]. Beijing:Peking University Press,2007. 374-383

[10] . D. Ludlow,T. Zelevinsky,G. K. Campbell et al.. Sr lattice clock at 1×10-16 fractional uncertainty by remote optical evaluation with a Ca clock[J]. Science, 2008, 319(5871): 1805-1808.

[11] Martin M. Boyd. High Precision Spectroscopy of Strontium in an Optical Lattice:Toward a New Standard for Frequency and Time [D]. B.S.,University of Washington,2002. 23-35

[12] . Loftus,Josh W. Dunn et al.. Single-stage sub-doppler cooling of alkaline earth atoms[J]. Phys. Rev. Lett., 2003, 90(19): 193002-1.

[13] . Sorrentino,G. Ferrari,N. Poli et al.. Laser cooling and trapping of atomic strontium for ultra-cold atoms physics,high-precision spectroscopy and quantum sensors[J]. Mod. Phys. Lett. B, 2006, 20(21): 1287-1320.

[14] 王心亮. 用于87Sr冷原子光晶格钟原子冷却装置的塞曼减速器研究[D]. 西安:西北大学,2008. 23-32

    Wang Xinliang. The Zeeman slower used for 87Sr optical lattice clock [D]. Xi′an :Northeast University,2008. 23-32

[15] 吴慧,赵亚楠,常宏 等. 偏振光激发的Sr原子电偶极辐射[J]. 量子光学学报,2009,15(3):248-252

    Wu Hui,Zhao Yanan,Chang Hong et al.. Electronic dipole radiation of Sr atoms induced by polarized light field [J]. Acta Quantum Optica Sinica,2009,15(3):248-252

[16] 杨福家. 原子物理学[M]. 北京:高等教育出版社,1999. 390-395

    Yang Fu Jia. Atomic Physics[M]. Beijing:Higher Education Press,1999. 390-395

[17] 付军贤,李义民,陈徐宗 等. 一种测量磁光阱中冷原子密度和温度的新方法[J]. 光学学报,200,1(4):414-416

    Fu Junxian,Li Yimin,Chen Xuzong et al.. A new method for measuring density and temperature of cold atoms in magneto-optical trap [J]. Acta Optica Sinica,200,1(4):414-416

[18] 王军民. 铯原子汽室磁光阱装置的建立及激光冷却与俘获铯原子的实验研究[D]. 太原:山西大学光电研究所,1999. 95-98

    Wang Junmin. Setting up the device of cesium vapor-cell magnetic-optical trap and experimental research on laser cooling and trapping of cesium atoms.[D]. Taiyuan:Institute of Opto-Electronics of Shanxi University,1999. 95-98

[19] 贺凌翔,王育竹. 光抽运效应的实验演示[J]. 中国激光,2004,31(1):25-28

    He Lingxiang,Wang Yuzhu. A simple demonstration of optical pumping effect[J]. Chinese J. Lasers,2004,31(1):25-28