[1] A. S. Zibrov, R. W. Fox, R. Elling sen et al.. High-resolution diode-laser spectroscopy of calcium[J]. Appl. Phys. B, 1994, 59(3): 327~331
[2] C. W. Oates, E. A. Curtis, L. Hollberg. Improved short-term stability of optical frequency standards: Approaching 1 Hz in 1s with the Ca standard at 657 nm[J]. Opt. Lett., 2000, 25(21): 1063~1065
[3] H. Lin, T. Wang, T. W. Mossberg. Experimental demonstration of swept-carrier time-domain optical memory[J]. Opt. Lett., 1995, 20(1): 91~93
[4] Chen Xiangjun, Chen Zilai, Dai Yongjiang et al.. Development of the solid laser radar[J]. Infrared and Laser Engineering, 1998, 27(6): 24~28
[5] Ye wei, Zhou Kejiang, Wang Tao et al.. Research on the stability of the optical source in fiber optic gyroscope[J]. Infrared and Laser Engineering, 1997, 26(1): 40~44
[6] G. A. Massey, M. K. Oshman, R. Targ. Generation of single-frequency light using the FM Laser[J]. Appl. Phys. Lett., 1995, 6(1): 10~11
[8] G. A. Ball, W. W. Morey, W. H. Glenn. Standing-wave monomode erbium fiber laser[J]. IEEE Photonic. Technol. Lett., 1991, 3: 613
[9] W. H. Loh, B. N. Samson, L. Dong. High performance single frequency fiber grating-based ethium: ytterbium codoped fiber lasers[J]. J. Lightwave Technol., 1998, 16(1): 114
[10] M. Horowitz, R. Daisy, B. Fiseher et al.. Narrow-linewidth single-mode erbium-doped fiber laser with intracavity wave mixing in saturable absorber[J]. Electron. Lett., 1994, 30(8): 648
[11] Y. Cheng, J. T. Kringlebotn, W. H. Loh. Stable single-frequency traveling-wave fiber loop laser with integral saturable-absorber-based tracking narrow-bandfilter[J]. Opt. Lett., 1995, 20(8): 875
[14] A. Jechow, V. Raab, R. Menzel et al.. 1 W tunable near diffraction limited light from a broad area laser diode in an external cavity with a line width of 1.7 MHz [J]. Opt. Commun., 2007, 277(1): 161~165
[15] B. V. Zhdanov, T. Ehrenreich, R. J. Knize et al.. Narrowband external cavity laser diode array[J]. Electron. Lrtt., 2007, 43(4): 221~222
[16] E. I. Moses, C. L. Tang. High-sensitivity laser wavelength-regulation spectroscopy[J]. Opt. Lett., 1977, 7(1): 115~117
[17] N. Umeda. Stabilized He-Ne transverse zeeman lasers[J]. Appl Opt., 1980, 19(3): 442~450
[18] G. A. Massey, M. K. Oshman, R. Targ. Generation of single-frequency light using the FM Laser[J]. Appl. Phys. Lett., 1995, 6(1): 10~11
[20] R. W. P. Drever, J. L. Hall, F. V. Kowalski et al.. Laser phase and frequency stabilization using an optical resonator [J]. Appl. Phys. B, 1983, 31(2): 97~105
[21] Eric D. Black. An introduction to pound-drever-hall laser frequency stabilization[J]. Am. J. Phys., 2001, 69(1): 79~87
[23] T. T. -Y. Lam, B. J. J. Slagmolen, J. H. Chow et al.. Digital laser frequency stabilization using an optical cavity[J]. IEEE J. Quantum Electron, 2010, 46(8): 1178~1183
[24] I. Ozdur, M. Akbulut, N. Hoghooghi et al.. A semiconductor-based 10 GHz optical comb source with wub 3 fs shot-noise-limited timing jitter and ~500 Hz comb linewidth[J]. IEEE Photonic. Technol Lett., 2010, 22(6): 431~433
[25] Evan M. Lally. A Narrow-Linewidth Laser at 1550 nm Using the Pound-Drever-Hall Stabilization Technique[D]. Virginia: Virginia Polytechnic Institute and State University, 2006
[26] Zhou Renlai. Research on Frequency Stabilization Technology in Single Longitudinal Mode of Tm:YAG Laser[D]. Harbin: Harbin Institute of Technology, 2009
[27] J. A. Kerckhoff, C. D. Bruzewicz, R. Uhl et al.. A frequency stabilization method for diode lasers utilizing low-field Faraday polarimetry[J]. Rev. Sci. Instrum, 2005, 76(9): 093108
[28] De Jiaolin, Gao Liangdai, Chun Yongyin et al.. Frequency stabilization of transverse Zeeman He-Ne laser by means of model predictive control[J]. Rev. Sci. Instrum., 2006, 77(12): 123301
[29] Li Zhiquan, Su Fengyan, Kang Lili. Realization of FBG external cavity semiconductor laser frequency stabilization by using acetylene absorption[J]. J. Yanshan University, 2008, 32(1): 37~40
[30] K. Nakano, S. Maehara, M. Yanagisawa et al.. Frequency stabilization of semiconductor lasers for onboard interferometers using both Rb-saturated absorption profiles and double-optical feedback systems[C]. SPIE, 2008. 701047
[31] John A. Smith, Xinzhao Chu et al.. Labview-based laser frequency stabilization system with phase-sensitive detection servo loop for Doppler LIDAR applications[J]. Opt. Engng., 2008, 47(11): 114201