[1] Kahn J M. Modulation and detection techniques for optical communication systems［J］. Coherent Optical Technologies and Applications, 2006: CThC1.

[2] Zeng Fei, Gao Shijie, San Xiaogang, el at. Development status and trend of airborne laser communication terminals［J］. Chinese Optics, 2016, 9(1): 65-73.

[3] Powell D. Lasers boost space communications［J］. Nature, 2013, 499(7458): 266-267.

[4] Coldren Larry A, Corzine Scott W. Diode lasers and photonic integrated circuits［M］. Shi Xinghan, Transl. Beijing: Beijing University of Posts and Telecommunications Press, 2006.

[5] Reddy U, Dias N L, Garg A, et al. A single spectral mode wide stripe laser with very narrow linewidth［J］. Appl Phys Lett, 2011, 99: 171109.

[6] Jia P, Qin L, Chen Y Y, et al. Broad-stripe single longitudinal mode laser based on metal slots［J］. Opt Commun, 2016, 365: 215-219.

[7] Wang Lijun, Ning Yongqiang, Qin Li, el at. Development of high power diode laser［J］. Chinese Journal of Luminescence, 2015, 36(1): 1-19.

[8] Aoyama K, Yoshioka R, Yokota N, et al. Optical negative feedback for linewidth reduction of semiconductor lasers［J］. IEEE Photonic Technology Letters, 2015, 27(4): 340-343.

[9] Pan Biwei, Yu Liqiang, Lu Dan, el at. 20 kHz narrow linewidth fiber Bragg grating external cavity semiconductor laser［J］. Chinese J Lasers, 2015, 42(5): 0502007.

[10] Jiang Luyun, Wang Linghua, Lin Zhongxi, et al. The effect of optical feedback on characteristic of the fiber Bragg grating external cavity semiconductor laser［J］. Chinese J Lasers, 2016, 43(7): 0701008.

[11] Liu Dapeng, Chen Chao, Qin Li, et al. Study on linewidth characteristics of fiber grating external cavity semiconductor laser［J］. Semiconductor Optoelectronics, 2016, 37(2): 165-169.

[12] Li Hui, Du Jiyao, Qu Yi, el at. Low power dissipation 980 nm single mode pumping source laser with wavelength stabilization［J］. Chinese Journal of Luminescence, 2016, 37(1): 33-37.

[13] Xu Qingyang, Chen Shaowu. Improved model analysis of fiber grating external cavity semiconductor lasers［J］. Chinese J Lasers, 2005, 32(2): 156-160.

[14] Tang R, Kita T,Yamada H. Narrow-spectral-linewidth silicon photonic wavelength-tunable laser with highly asymmetric Mach-Zehnder interferometer［J］. Opt Lett, 2015, 40(7): 1504-1507.

[15] Alalusi M, Brasil P, Lee S, et al. Low noise planar external cavity laser for interferometric fiber optic sensors［C］. SPIE, 2009, 7316: 73160X.

[16] Liang W, Ilchenko V S, Eliyahu D, et al. Ultralow noise miniature external cavity semiconductor laser［J］. Nat Commun, 2015: 7371.

[17] Premaratne M, Lowery A J, Ahmed Z, et al. Modeling noise and modulation performance of fiber grating external cavity lasers［J］. IEEE Journal of Selected Topic in Quantum Electronics, 1997, 3(2): 290-303.

[18] Loh W, O′Donnell F J, Plant J J, et al. Packaged, high-power, narrow-linewidth slab-coupled optical waveguide external cavity laser［J］. IEEE Photonics Technology Letters, 2011, 23(14): 974-976.

[19] Bartolo B, Kirkendall C K, Kupershmidt V, et al. Achieving narrow linewidth, low phase noise external cavity semiconductor lasers through the reduction of 1/f noise［C］. SPIE, 2006, 6133: 613301.

[20] Zhan Biao, Xu Shanhui, Mo Shupei, el at. Study on relaxation oscillation suppression in a short cavity single frequency DBR fiber laser［J］. Laser & Optoelectronics Progress, 2013, 50(9): 090602.

[21] Hisham H K, Abas A F, Mahdiraji G A, et al. Optimizing the external optical cavity parameters for performance improvement of a fiber grating Fabry-Perot laser［J］. Opt Rev, 2015, 22(2): 278-288.

[22] Cheng W H, Chiu S F, Hong C Y, et al. Spectral characteristics for a fiber grating external cavity laser［J］. Opt Quant Electron, 2000, 32(3): 339-348.

[23] Erdogan T. Fiber grating spectra［J］. J Lightwave Technol, 1997, 15(8): 1277-1294.

[24] Agrawal G P, Dutta N K. Semiconductor lasers［M］. 2nd ed. New York: Van Nostrand Reinhold, 1993, 126-142.

[25] Henry C H.Theory of the linewidth of semiconductor lasers［J］. IEEE Journal of Lightwave Technology, 1982, QE-18(2): 259-264.

[26] Ahmed M, Yamada M, Saito M. Numerical modeling of intensity and phase noise in semiconductor lasers［J］. IEEE J Quantum Electron, 2001, 37(12): 1600-1610.