[1] Yamamoto Y, Mukai T, Saito S, et al.Quantum phase noise and line-width of a semiconductor laser.Electron Lett, 1981,17(9):325～329Fleming M W, Mooradian A.Spectral characteristics of external-cavity controlled semiconductor lasers.IEEE J Quant Electr, 1981,QE-17(1):44～59

[2] Harvey K C, Myatt C J.External cavity diode laser using a grazing incidence diffraction grating.Opt Lett, 1991,16(12):910～912

[3] Wieman C E, Hollberg L.Using diode lasers for atomic physics.Rev Sci Instrum, 1991,62(1):1～20

[4] Ikegami T, Sudo S, Sakai Y.Frequency stabilization of semiconductor laser diodes.Artech Housen,Inc, 1995

[5] Sato T, Niikuni M, Sato S, et al.Frequency stabilization of a semiconductor laser using Rb-D1 and D2 absorption lines.Electron Lett,1988,24(7):429～431

[6] Hori H, Kitayama Y, Kitano M, et al.Frequency stabilization of GaAlAs laser using a Doppler-free spectrum of the Cs-D2 line.IEEE J Quant Electr, 1983,QE-19(2):169～175;Lee W D, Campbell J C, Brecha R J, et al.Frequency stabilization of an external-cavity diode laser. Appl Phys Lett, 1990,57(21):2181～2183

[7] Simonsen H R.Iodine-stabilized external cavity diode laser at λ=633 nm.IEEE Trans Instrum Meas, 1997, 46(1):141～144

[8] Wallard A J.Frequency stabilization of the helium-neon laser by saturated absorption in iodine vapor. J Phys Electr, 1972,5(9):926～930Balling P, Blabla J, Chartier A, et al.International comparison of 127I2 stabilized He-Ne lasers at λ=633 nm using the third and the fifth harmonic locking technique.IEEE Trans Instrum Meas, 1995,44(2):173～176

[9] Raj R K, Bloch D, Snyder J J, et al.High-frequency optical heterodyne saturation spectroscopy via resonant degenerate four-wave mixing. Phys Rev Lett, 1980,44(19):1251～1253

[10] Ma L S, Hall J L.Optical heterodyne spectroscopy enhanced by an external optical cavity: toward improved working standards.IEEE J Quant Electr, 1990,QE-26(11):2006～2012

[11] Eickhoff M L, Hall J L.Optical frequency standard at 532 nm.IEEE Trans Instrum Meas, 1995,44(2): 155～158

[12] Hall J L, Ma L S, Taubman M, et al.Stabilization and frequency measurement of the I2-stabilized Nd:YAG laser.IEEE Trans Instrum Meas, 1999,48(2):583～586

[13] Hong F L, Ishikawa J, Yoda J, et al.Frequency comparison of 127I2 stabilized lasers. IEEE Trans Instrum Meas, 1999,48(2):532～536

[14] Shen Naicheng, Zang E J, Cao H J, et al.Modulation transfer spectroscopy of 127I2 hyperfine structure near 532 nm using a self-made diode-pumped Nd:YVO4-KTP laser. IEEE Trans Instrum Meas, 1999,48(2):604～607

[15] Bi Zhiyi, Luo M, Ding J X, et al.Modulation transfer spectrum using Nd:YVO4 mini-laser.Acta Optica Sinica (in Chinese), 2000,20(12):1699～1703

[16] Ito N.Doppler-free modulation transfer spectroscopy of rubidium 52S1/2-62P1/2 transitions using a frequency-doubled diode laser blue-light source.Rev Sci Instrum, 2000,71(7):2655～2662