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Chinese Journal of Lasers, Volume. 30, Issue 3, 193(2003)

Rate-equation-based VCSEL Thermal Model and Simulation

[in Chinese]1、*, [in Chinese]2, and [in Chinese]1
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    [1] [1] W. Nakwaski, M. Osinski. Self-consistent thermal-electrical modeling of proton-implanted top-surface-emitting semiconductor lasers [C]. SPIE, 1994, 2146:365~387

    [2] [2] R. Michalzik, K. J. Ebeling. Modeling and design of proton-implanted ultralow-threshold vertical-cavity laser diodes [J]. IEEE J. Quantum Electron., 1993, 29(6):1963~1974

    [3] [3] G. R. Hadley, K. L. Lear, M. E. Warren et al.. Comprehensive numerical modeling of vertical-cavity surface-emitting lasers [J]. IEEE J. Quantum Electron., 1996, 32(4):607~616

    [4] [4] J. Piprek, H. Wenzel, G. Sztefka. Modeling thermal effects on the light vs current characteristic of gain-guided vertical-cavity surface emitting lasers [J]. IEEE Photon. Technol. Lett., 1994, 6(2):139~142

    [5] [5] S. F. Yu, W. N. Wong, P. Shum et al.. Theoretical analysis of modulation response and second-order harmonic distortion in vertical cavity surface-emitting lasers [J]. IEEE J. Quantum Electron., 1996, 32(12):2139~2147

    [6] [6] Y. Su, Y. Chang, X. Chen. Circuit model for studying temperature effects on vertical-cavity surface-emitting laser [C]. in Proc. IEEE LEOS Annu. Meeting, 1996, 1:215~216

    [7] [7] K. Moriki, H. Nakahara, T. Hottori et al.. Single transverse mode condition of surface-emitting injection lasers [J]. Electron. Commun. Japan, 1988, 71(1, Part 2):81~90

    [8] [8] P. V. Mena, S.-M. Kang, T. A. DeTemple. Rate-equation-based laser models with a single solution regime [J]. J. Lightwave Technol., 1997, 15(4):717~730

    [9] [9] G. Hasnain, K. Tai. L. Yang et al.. Performance of gain-guided surface emitting lasers with semiconductor distributed Bragg reflectors [J]. IEEE J. Quantum Electron., 1991, 27(6):1377~1385

    [10] [10] J. W. Scott, R. S. Geels, S. W. Corzine et al.. Modeling temperature effects and spatial hole burning to optimize vertical-cavity surface-emitting laser performance [J]. IEEE J. Quantum Electron., 1993, 29(5):1295~1308

    [11] [11] M. H. Crawford, K. D. Choquette, H. Q. Hou et al.. Visible VCSELs: Recent advances and applications [C]. Proc. 1997 Digest LEOS Summer Topical Meetings-Vertical-Cavity Lasers, 1997. 17~18

    [12] [12] M. H. Crawford, K. D. Choquette, R. J. Hickman et al.. InAlGaP vertical cavity surface emitting lasers (VCSEL's): Processing and performance [C]. Proc. Int. Conf. InP and Related Mater., 1997. 32~35

    [13] [13] B. J. Thibeault, K. Bartilsson, E. R. Hegblom et al.. High-speed characteristics of low-optical loss oxide-apertured vertical-cavity lasers [J]. IEEE Photon. Technol. Lett., 1997, 9(1):11~13

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    [in Chinese], [in Chinese], [in Chinese]. Rate-equation-based VCSEL Thermal Model and Simulation[J]. Chinese Journal of Lasers, 2003, 30(3): 193

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    Paper Information

    Category: Laser physics

    Received: Dec. 27, 2001

    Accepted: --

    Published Online: Jun. 27, 2006

    The Author Email: (microyang@263.net)

    DOI:

    Topics

    laser devices and laser physics
    Lasers and Laser Optics
    Laser physics
    laser manufacturing
    Instrumentation, Measurement and Metrology