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Chinese Optics, Volume. 15, Issue 5, 946(2022)

Research progress of high-speed vertical-cavity surface-emitting laser in CIOMP

Si-cong TIAN1, Cun-zhu TONG2、*, Li-jun WANG2、*, and Dieter BIMBERG1,3、*
Author Affiliations
  • 1Changchun Institute of Optics, Fine Mechanics and Physics, Chinese Academy of Sciences, Bimberg Chinese-German Center for Green Photonics Research Center, 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
  • 3Institute of Solid State Physics, Center for Nano-Optics, Technical University of Berlin, Berlin D-10623, Germany
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    References(24)

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    [3] [3] TATUM J A, LRY G D, GAZULA D, et al. . VCSELbased optical transceivers f future data center applications[C]. 2018 Optical Fiber Communications Conference Exposition, IEEE, 2018: 13.

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    [5] HAGLUND E, WESTBERGH P, GUSTAVSSON J S, et al. 30 GHz bandwidth 850 nm VCSEL with sub-100 fJ/bit energy dissipation at 25-50 Gbit/s[J]. Electronics Letters, 51, 1096-1098(2015).

    [6] CHENG C L, LEDENTSOV N, KHAN Z, et al. Ultrafast Zn-diffusion and oxide-relief 940 nm vertical-cavity surface-emitting lasers under high-temperature operation[J]. IEEE Journal of Selected Topics in Quantum Electronics, 25, 1700507(2019).

    [7] [7] HAGHIGHI N, LARISCH G, ROSALES R, et al. . 35 GHz bwidth with directly current modulated 980 nm oxide aperture single cavity VCSELs[C]. 2018 IEEE International Semiconduct Laser Conference, IEEE, 2018: 12.

    [8] SIMPANEN E, GUSTAVSSON J S, HAGLUND E, et al. 1060 nm single-mode vertical-cavity surface-emitting laser operating at 50 Gbit/s data rate[J]. Electronics Letters, 53, 869-871(2017).

    [9] KUCHTA D M, RYLYAKOV A V, DOANY F E, et al. A 71-Gb/s NRZ modulated 850-nm VCSEL-based optical link[J]. IEEE Photonics Technology Letters, 27, 577-580(2015).

    [10] YANG ZH K, TIAN S C, LARISCH G, . High-speed vertical-cavity surface-emitting lasers based on PAM4 modulation[J]. Chinese Journal of Luminescence, 41, 399-413(2020).

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    [12] LARISCH G, ROSALES R, BIMBERG D. Energy-efficient 50+ Gb/s VCSELs for 200+ Gb/s optical interconnects[J]. IEEE Journal of Selected Topics in Quantum Electronics, 25, 1701105(2019).

    [13] STEPNIAK G, LEWANDOWSKI A, KROPP J R, et al. 54 Gbit/s OOK transmission using single-mode VCSEL up to 2.2 km MMF[J]. Electronics Letters, 52, 633-635(2016).

    [14] MOSER P, LOTT J A, WOLF P, et al. 56 fJ dissipated energy per bit of oxide-confined 850 nm VCSELs operating at 25 Gbit/s[J]. Electronics Letters, 48, 1292-1294(2012).

    [15] LIU A J. Progress in single-mode and directly modulated vertical-cavity surface-emitting laser[J]. Chinese Journal of Lasers, 47, 0701005(2020).

    [16] XU H Y, TIAN S C, HAN S Y, . 53 Gbit/s high speed single mode 940 nm vertical-cavity surface-emitting laser[J]. Chinese Journal of Luminescence, 43, 1114-1120(2022).

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    [22] LI M J. Novel optical fibers for data center applications[J]. Proceedings of SPIE, 9772, 977205(2016).

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    Si-cong TIAN, Cun-zhu TONG, Li-jun WANG, Dieter BIMBERG. Research progress of high-speed vertical-cavity surface-emitting laser in CIOMP[J]. Chinese Optics, 2022, 15(5): 946

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    Paper Information

    Category: Review

    Received: Jun. 18, 2022

    Accepted: --

    Published Online: Sep. 29, 2022

    The Author Email:

    DOI:10.37188/CO.2022-0136

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