[1] Huang Y Z, Yang Y D, Wang S J, et al.. Whispering-gallery microcavity semiconductor lasers suitable for photonic integrated circuits and optical interconnects[J]. Science China Technological Sciences, 2009, 52(12): 3447-3453.

[2] Ou F, Li X Y, Liu B Y, et al.. Enhanced radiation loss-based radial-waveguide-coupled electrically pumped microresonator lasers with single-directional output[J]. Opt Lett, 2010, 35(10): 1722-1724.

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

[4] Fang Jinxiang, Dong Shiyun, Xu Binshi, et al.. Study of stresses of laser metal deposition using FEM considering phase transformation effects[J]. Chinese J Lasers, 2015, 42(5): 0502009.

[5] Huang Jing, Hu Xiuhan, Chen Weibiao. LD-pumped electro-optically Q-switched 946 nm Nd∶YAG laser with pulse repetition rates of 1 kHz[J]. Chinese J Lasers, 2015, 42(6): 0602008.

[6] Hu Liming, Li Zaijin, Qin Li, et al.. Thermal analysis of high-power, high-duty-cycle laser diode array[J]. Acta Optica Sinica, 2010, 30(4): 1056-1060.

[7] Zheng X G, Li Z J, Li T, et al.. Analysis simulation of facet temperature in semiconductor lasers[C]. 2012 International Conference on Optoelectronics and Microelectronics, 2012: 111-114.

[8] Zhang Jianwei, Ning Yongqiang, Zhang Xing, et al.. Analysis of the thermal model based on the carrier injection mechanisms within the semiconductor laser[J]. Chinese J Lasers, 2012, 39(10): 1002003.

[9] Wang Wen, Gao Xin, Zhou Zepeng, et al.. Steady-state thermal analysis of hundred-watt semiconductor laser with multichip-packaging [J]. Infrared and Laser Engineering, 2014, 43(5): 1439-1443.

[10] Wang Shengnan, Bo Baoxue, Xu Liuyang, et al.. Thermal analysis on semiconductor laser with non-injection region[J]. Chinese Journal of Luminescence, 2014, 35(8): 970-973.

[11] Zou L X, Huang Y Z, Liu B W, et al.. Thermal and high speed modulation characteristics for AlGaInAs/InP microdisk lasers[J]. Opt Lett, 2010, 35(10): 1722-1724.

[12] Sui S S, Tang M Y, Yang Y D, et al.. Sixteen-wavelength hybrid AlGaInAs/Si microdisk laser array[J]. IEEE J Quantum Electron, 2015, 51(4): 2600108.

[13] Pu R, Wilmsen C W, Geib K M, et al.. Thermal resistance of VCSEL′s bonded to integrated circuits[J]. IEEE Photon Technol Lett, 1999, 11(12): 1554-1556.

[14] Van Campenhout J, Rojo-Romeo P, Van Thourhout D, et al.. Thermal characterization of electrically injected thin-film InGaAsP microdisk lasers on Si[J]. J Lightwave Technol, 2007, 25(6): 1543-1548.

[15] Sysak M N, Park H, Fang A W, et al.. Experimental and theoretical thermal analysis of a hybrid silicon evanescent laser[J]. Opt Express, 2007, 15(23): 15041-15046.

[16] Wipiejewski T, Young D B, Thibeault B J, et al.. Thermal crosstalk in 4×4 vertical-cavity surface-emitting laser arrays[J]. IEEE PhotonTechnol Lett, 1996, 8(8): 980-982.

[17] Camps I, Gonz′alez J C, S′anchez M. Calculation of the thermal resistance and temperature distribution in blue-green semiconductor lasers[J]. Semicond Sci Technol, 1997, 12(12): 1574-1578.