[1] S M Sun, J Fan, L Xu et al. Research progress of conical semiconductor lasers. Chin Opt, 12, 48(2019).

[2] X Y Zhou, S Y Zhao, X L Ma et al. Low vertical divergence angle high brightness photonic crystal semiconductor laser. Chin J Lasers, 44, 0201010(2017).

[3] Y Q Liu, Y H Cao, J Li et al. 5 kW fiber coupled semiconductor laser for laser processing. Opt Prec Eng, 23, 1279(2015).

[4] K Paschke, B Sumpf, F Dittmar et al. Nearly diffraction limited 980-nm tapered diode lasers with an output power of 7.7 W. IEEE J Sel Top Quantum Electron, 11, 1223(2005).

[5] P Jia, X L Liu, Y Y Chen et al. Study of dual wavelength distributed Bragg reflection semiconductor laser with high order Bragg gratings. Chin J Lasers, 37(2015).

[6] A T Aho, J Viheriälä, Korpijärvi V M M et al. High-power 1180-nm GaInNAs DBR laser diodes. IEEE Photonics Technol Lett, 29, 2023(2017).

[7] J Fan, C Y Gong, J J Yang et al. Research progress of distributed prague reflector semiconductor lasers. Progr Laser Optoelectron, 56, 34(2019).

[8] A Müller, J Fricke, F Bugge et al. DBR tapered diode laser with 12.7 W output power and nearly diffraction-limited, narrowband emission at 1030 nm. Appl Phys B, 122, 87(2016).

[9] H Kogelnik, C V Shank. Coupled-wave theory of distributed feedback lasers. J Appl Phys, 43, 2327(1972).

[10] G C Dente, M L Tilton. Modeling multiple-longitudinal-mode dynamics in semiconductor lasers. IEEE J Quantum Electron, 34, 325(1998).

[11] K H Hasler, H Wenzel, A Klehr et al. Simulation of the generation of high-power pulses in the GHz range with three-section DBR lasers. IEE Proceedings-Optoelectronics, 149, 152(2002).

[12] M Radziunas. Modeling and simulations of broad-area edge-emitting semiconductor devices. Intl J High Perform Comput Appl, 32, 512(2018).

[13] K Vahala, A Yariv. Semiclassical theory of noise in semiconductor lasers-Part I. IEEE J Quantum Electron, 19, 1096(1983).

[14] K Vahala, A A Yariv. Semiclassical theory of noise in semiconductor lasers-Part II. IEEE J Quantum Electron, 19, 1102(1983).

[15] L M Zhang, S F Yu, M C Nowell et al. Dynamic analysis of radiation and side-mode suppression in a second-order DFB laser using time-domain large-signal traveling wave model. IEEE J Quantum Electron, 30, 1389(1994).

[16]

[17] A M De Melo, K Petermann. On the amplified spontaneous emission noise modeling of semiconductor optical amplifiers. Opt Commun, 281, 4598(2008).

[18] D Marcuse. Computer simulation of laser photon fluctuations: Theory of single-cavity laser. IEEE J Quantum Electron, 20, 1139(1984).

[19] L Borruel, H Odriozola, J M G Tijero et al. Design strategies to increase the brightness of gain guided tapered lasers. Opt Quantum Electron, 40, 175(2008).

[20] M Spreemann, M Lichtner, M Radziunas et al. Measurement and simulation of distributed-feedback tapered master-oscillator power amplifiers. IEEE J Quantum Electron, 45, 609(2009).

[21] C Qiao, R G Su, X Li et al. Design and technology of 980 nm high power DBR semiconductor laser. Chin Laser, 46, 0701002(2019).

[22] W X Wang, Y X Lu. Analysis of sampling grating characteristics of distributed feedback semiconductor lasers. Laser J, 39, 57(2018).