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Chinese Journal of Lasers, Volume. 39, Issue 3, 302002(2012)

Polarization Properties of High-Power Vertical-Cavity Bottom-Emitting Lasers

Wang Wei1,2、*, Ning Yongqiang1, Zhang Jinlong1, Qin Li1, Liu Yun1, and Wang Lijun1
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    [1] [1] Valle, M. Sciamanna, K. Panajotov. Nonlinear dynamics of the polarization of multitransverse mode vertical-cavity surface-emitting lasers under current modulation[J]. Phys. Rev. E., 2007, 76(4): 046206

    [2] [2] D. Burak, J. V. Moloney, R. Binder. Macroscopic versus microscopic description of polarization properties of optically anisotropic vertical-cavity surface-emitting lasers[J]. IEEE J. Quantum Electron., 2000, 36(8): 956~970

    [3] [3] J. Martin-Regalado, J. L. A. Chilla, J. J. Rocca et al.. Polarization switching in vertical-cavity surface-emitting lasers observed at constant active region temperature[J]. Appl. Phys. Lett., 1997, 70(25): 3350~3352

    [4] [4] B. Gayral, J. M. Gerard, B. Legrand et al.. Optical study of GaAs/AlAs pillar microcavities with elliptical cross section[J]. Appl. Phys. Lett., 1998, 72(12): 1421~1423

    [5] [5] J. M. Ostermann, P. Debernardi, R. Michalzik. Surface-grating VCSELs with dynamically stable light output polarization[J]. IEEE Photon. Technol. Lett., 2005, 17(12): 2505~2507

    [6] [6] T. Onishi, T. Tanigawa, T. Ueda et al.. Polarization control of vertical-cavity surface-emitting lasers by utilizing surface plasmon resonance[J]. IEEE J. Quantum Electron., 2007, 43(12): 1123~1128

    [7] [7] T. H. Russell, T. D. Milster. Polarization switching control in vertical-cavity surface-emitting lasers[J]. Appl. Phys. Lett., 1997, 70(19): 2520~2522

    [8] [8] N. Nishiyama, M. Arai, S. Shinada et al.. Highly strained GaInAs-GaAs quantum-well vertical-cavity surface-emitting laser on GaAs (311)B substrate for stable polarization operation[J]. IEEE J. Sel. Top. Quantum Electron., 2001, 7(2): 242~248

    [9] [9] M. S. Park, B. T. Ahn, Byueng-Su Yoo et al.. Polarization control of vertical-cavity surface-emitting lasers by electro-optic birefringence[J]. Appl. Phys. Lett., 2000, 76(7): 813~815

    [10] [10] D. S. Song, Y. J. Lee, H. W. Choi et al.. Polarization-controlled, single-transverse-mode, photonic-crystal, vertical-cavity, surface-emitting lasers[J]. Appl. Phys. Lett., 2003, 82(19): 3182~3184

    [11] [11] Li Te, Ning Yongqiang, Sun Yanfang et al.. Beam quality of 980 nm high power vertical-cavity surface-emitting laser[J]. Chinese J. Lasers, 2007, 34(5): 641~645

    [12] [12] Zhang Yan, Ning Yongqiang, Wang Ye et al.. High power vertical-cavity surface-emitting laser array with small divergence[J]. Chinese J. Lasers, 2010, 37(9): 2428~2432

    [13] [13] Cui Jinjiang, Ning Yongqiang, Zhang Yan et al.. High beam quality novel vertical cavity surface emitting laser array[J]. Chinese J. Lasers, 2009, 36(8): 1941~1945

    [14] [14] Ning Yongqiang, Li Te, Qin Li et al.. Temperature and far-field distribution characteristics of 980 nm high power VCSEL[J]. Infrared and Laser Engineering, 2008, 37(6): 984~986

    [15] [15] W. Wang, Y. Q. Ning, Z. H. Tian et al.. Coherent polarization stabilization in large-aperture rectangular post bottom-emitting vertical-cavity surface-emitting lasers[J]. Opt. Commun., 2011, 284: 1335~1338

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    Wang Wei, Ning Yongqiang, Zhang Jinlong, Qin Li, Liu Yun, Wang Lijun. Polarization Properties of High-Power Vertical-Cavity Bottom-Emitting Lasers[J]. Chinese Journal of Lasers, 2012, 39(3): 302002

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    Paper Information

    Category: Laser physics

    Received: Oct. 13, 2011

    Accepted: --

    Published Online: Jan. 17, 2012

    The Author Email: Wei Wang (wjwciomp@163.com)

    DOI:10.3788/cjl201239.0302002

    Topics

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