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    Journals >Infrared and Laser Engineering >Volume 49 >Issue 12 >Page 20201077 > Article
    • Infrared and Laser Engineering
    • Vol. 49, Issue 12, 20201077 (2020)
    Advances in the technology of 850 nm high-speed vertical cavity surface emitting lasers (Invited)
    Haixia Tong1, Cunzhu Tong2, Ziye Wang1, Huanyu Lu1, Lijie Wang2, Sicong Tian2, and Lijun Wang2
    Author Affiliations
  • 1State Key Laboratory of Luminescence and Applications, Changchun Institute of Optics, Fine Mechanics and Physics, Chinese Academy of Sciences, Changchun 130033, China
  • 2State Key Laboratory of Luminescence and Applications, Changchun Institute of Optics, Fine Mechanics and Physics, Chinese Academy of Sciences, Changchun 130033, China
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    DOI: 10.3788/IRLA20201077 Cite this Article
    Haixia Tong, Cunzhu Tong, Ziye Wang, Huanyu Lu, Lijie Wang, Sicong Tian, Lijun Wang. Advances in the technology of 850 nm high-speed vertical cavity surface emitting lasers (Invited)[J]. Infrared and Laser Engineering, 2020, 49(12): 20201077 Copy Citation Text show less

    Abstract

    Vertical-cavity surface-emitting lasers (VCSELs) have important applications in the short-distance optical interconnection attributed to their advantages, such as low cost, low threshold current, high modulation bandwidth and low power consumption. With the development of big-data and supercomputer technology, the performance demand of short-distance optical interconnection is increasing quickly, which also proposes a challenge for high-speed 850 nm VCSEL. In this paper, the latest development of high-speed 850 nm VCSEL technology was reviewed from the aspects of bandwidth-limited factors and new modulation methods, and the growing trend of this technology is prospected and summarized.

    Keywords

    $ {{H}}\left({{f}}\right)=\dfrac{{f}_{\rm R}^{2}}{{f}_{\rm R}^{2}-{f}^{2}+jf\gamma }\cdot \dfrac{1}{1+j\cdot \left(\dfrac{f}{{f}_{\rm p}}\right)}{,} $(1)

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    $ {f}_{\rm R}={{D}}\sqrt{{I}_{0}-{I}_{\rm th}}{,} $(2)

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    $ {{D}}=\frac{1}{2\pi }{{\left[\dfrac{ \varGamma {{v}_{\rm g}}{{\eta }_{i}}}{q{{V}_{\rm p}}}\dfrac{{}^{\partial g}\!\!\diagup\!\!{}_{\partial n}\;}{\chi }\right]}^{1/2}},$(3)

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    $ \gamma = {{K}}f_{\rm {R}}^2 + {\gamma _0}, $(4)

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    $ {{K}}=4{{\pi }^{2}}\left( {{\tau }_{p}}+\dfrac{ \varepsilon { } \chi }{{}^{{{v}_{\rm g}}\partial g}\!\!\diagup\!\!{}_{\partial n}\;} \right), $ (5)

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    Abstract
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    Haixia Tong, Cunzhu Tong, Ziye Wang, Huanyu Lu, Lijie Wang, Sicong Tian, Lijun Wang. Advances in the technology of 850 nm high-speed vertical cavity surface emitting lasers (Invited)[J]. Infrared and Laser Engineering, 2020, 49(12): 20201077
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