| [1] | WANG H X, CHEN J D, CHANG T Y, et al. Reaserch of modudation characteristics of distributed feedback laser[J]. Laser Technology, 2017, 41(6):836-840(in Chinese). |
| [2] | JIAN X H, HAN Zh L, DONG Zh L, et al. Status and selection of photoacoustic imaging exciting laser sources[J]. Laser Technology, 2017, 41(5):712-716(in Chinese). |
| [3] | DUAN H. The response characteristics of semiconductor lasers based on rate equations[D]. Qinhuangdao: Yanshan University, 2010: 1-83(in Chinese). |
| [4] | LI F L, CHEN J J. Polarization switch and bistability in long-wavelength vertical-cavity surface-emitting lasers[J].Laser Technology, 2015, 39(4):515-519(in Chinese). |
| [5] | ZHANF P, YU W M, SONG Y R. Technology of SESAM mode-locked OP-VECSELs[J]. Laser Technology, 2007, 31(3):291-294(in Chinese). |
| [6] | YU Ch Y. Numerical simulation and characteristic investigation of vertical-cavity surface-emitting lasers based on rate-equations[D].Beijing: Beijing University of Posts and Telecommunications, 2006: 1-79(in Chinese). |
| [7] | MENA P V, MORIKUNI J J, HARTON A V. A simple rate-equation-based thermal vcsel model[J]. Journal of Lightwave Technology, 1999, 17(5):865-872. doi: 10.1109/50.762905 |
| [8] | SALE T E, ROBERTS J S, DAVIDJ P R. Temperature effects in VCSEL's[J].Proceedings of the SPIE, 1997, 3003:100-110. doi: 10.1117/12.271056 |
| [9] | LIANG F, GAO J J, TIAN X N. An improved thermal model for a VCSEL[J]. Chinese Journal of Semiconductors, 2007, 28(7):1125-1129(in Chinese). |
| [10] | NAKWASKI W.Thermal aspects of efficient operation of vertical ca-vity surface-emitting lasers[J]. Optical & Quantum Electronics, 1996, 28(4):335-352. |
| [11] | QSINSKI M, NAKWASKI W.Thermal effects in vertical-cavity surface-emitting lasers[J]. International Journal of High Speed Electronics & Systems, 1994, 5(4):667-730. |
| [12] | YU S F, WONG W N, SHUM P, et al. Theoretical analysis of modulation response and second-order harmonic distortion in vertical ca-vity surface-emitting lasers[J]. IEEE Journal of Quantum Electronics, 1996, 32(12):2139-2147. doi: 10.1109/3.544761 |
| [13] | MOROZOV J V N, NEFF J A, ZHOU H. Analysis of vertical-cavity surface-emitting laser multimode behavior[J]. IEEE Journal of Quantum Electronics, 1997, 33(6):980-988. doi: 10.1109/3.585486 |
| [14] | SU Y, CHANG Y, CHEN X.Circuit model for studying temperature effects on vertical-cavity surface-emitting laser[C]//Lasers and Electro-Optics Society Meeting, 1996. New York, USA: IEEE, 2002, 1: 215-216. |
| [15] | COLDREN L A, SCOTT J W, GEELS R S, et al. Modeling tempe-rature effects and spatial hole burning to optimizevertical-cavity surface[J]. IEEE Journal of Quantum Electronics, 1993, 29(5):1295-1308. doi: 10.1109/3.236145 |
| [16] | MICHALZIK R, EBELING K J. Modeling and design of proton-implanted ultralow-threshold vertical-cavity laser diodes[J]. IEEE Journal of Quantum Electronics, 1993, 29(6):1963-1974. doi: 10.1109/3.234459 |
| [17] | MIRZAEE H. Long-term prediction of chaotic time series with multi-step prediction horizons by a neural network with Levenberg-Marquardt learning algorithm[J]. Chaos, Solitons & Fractals, 2009, 41(4):1975-1979. |
| [18] | WANG B X. Research on LM optimization algorithm and neural network predictive control in nonlinear system[D]. Taiyuan: Taiyuan University of Technology, 2016: 1-85(in Chinese). |