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MD2 - Datacom VCSELs Session Presider: Anders Larsson
10:30-12:00 Salon VI
MD2.1 -
Optical Components for 56Gbps datalinks Invited
10:30-11:00
2017-10-02 10:30 2017-10-02 11:00 America/Denver Optical Components for 56Gbps datalinks Datacom VCSELs continue to evolve to higher speeds to meet demands for bandwidth. We will review the current state of Datacom VCSELs and how the shift towards 56Gbps datalinks is progressing. We will also present results on Finisar’s VCSELs for NRZ, PAM4, and SWDM. Hilton Santa Fe Historic Plaza Salon VI

    P. Westbergh , Finisar Corporation, Allen, TX, United States, D. Gazula , Finisar Corporation, Allen, TX, United States G. Landry , Finisar Corporation, Allen, TX, United States T. Gray , Finisar Corporation, Allen, TX, United States E. Shaw , Finisar Corporation, Allen, TX, United States J. Tatum , Finisar Corporation, Allen, TX, United States

    Datacom VCSELs continue to evolve to higher speeds to meet demands for bandwidth. We will review the current state of Datacom VCSELs and how the shift towards 56Gbps datalinks is progressing. We will also present results on Finisar’s VCSELs for NRZ, PAM4, and SWDM.
MD2.2 -
High-Speed Zn-Diffusion/Oxide-Relief VCSELs with Stable High-Temperature Performance at 940 nm Wavelength
11:00-11:15
2017-10-02 11:00 2017-10-02 11:15 America/Denver High-Speed Zn-Diffusion/Oxide-Relief VCSELs with Stable High-Temperature Performance at 940 nm Wavelength By use of Zn-diffusion and oxide-relief apertures in 940 nm VCSEL, state-of-the-art dynamic performance has been demonstrated. A low differential resistance (50 Ohm) and a near 30 GHz 3-dB E-O bandwidth can be sustained from room-temperature to 85℃ operations. Hilton Santa Fe Historic Plaza Salon VI

    J. Shi , Taiwan, K. Chi Z. Xie

    By use of Zn-diffusion and oxide-relief apertures in 940 nm VCSEL, state-of-the-art dynamic performance has been demonstrated. A low differential resistance (50 Ohm) and a near 30 GHz 3-dB E-O bandwidth can be sustained from room-temperature to 85℃ operations.
MD2.3 -
1060 nm single and multimode VCSELs for up to 50 Gb/s modulation
11:15-11:30
2017-10-02 11:15 2017-10-02 11:30 America/Denver 1060 nm single and multimode VCSELs for up to 50 Gb/s modulation We present the design and performance of 1060 nm VCSELs with up to 50 Gb/s modulation capacity and demonstrate 25 Gb/s transmission over 1000 m of 1060 nm optimized MMF using a single-mode VCSEL and mode-selective launch. Hilton Santa Fe Historic Plaza Salon VI

    E. Simpanen , Chalmers University of Tech., Göteborg, Sweden, J. Gustavsson , Chalmers University of Tech., Göteborg, Sweden E. Haglund , Chalmers University of Tech., Göteborg, Sweden E. Haglund , Chalmers University of Tech., Göteborg, Sweden T. Lengyel , Chalmers University of Tech., Göteborg, Sweden A. Larsson , Chalmers University of Tech., Göteborg, Sweden P. Andrekson , Chalmers University of Tech., Göteborg, Sweden W. Sorin , Hewlett Packard Enterprise, Palo Alto, CA, United States S. Mathai , Hewlett Packard Enterprise, Palo Alto, CA, United States M. Tan , Hewlett Packard Enterprise, Palo Alto, CA, United States S. Bickham , Corning R&D Corporation, Painted Post, NY, United States

    We present the design and performance of 1060 nm VCSELs with up to 50 Gb/s modulation capacity and demonstrate 25 Gb/s transmission over 1000 m of 1060 nm optimized MMF using a single-mode VCSEL and mode-selective launch.
MD2.4 -
Low Dimension High Bandwidth 980-nm VCSELs for Very-short-reach Optical Interconnects and Integration Invited
11:30-12:00
2017-10-02 11:30 2017-10-02 12:00 America/Denver Low Dimension High Bandwidth 980-nm VCSELs for Very-short-reach Optical Interconnects and Integration Simplicity-in-design and processing to reach minimum operating power and maximum bandwidth, energy efficiency, and temperature stability limits of vertical-cavity surface-emitting lasers (VCSELs) by for example reducing the vertical and lateral dimensions are explored. We seek optimized VCSELs for data communications and photonic integration. Hilton Santa Fe Historic Plaza Salon VI

    J. Lott , Technische Universität Berlin, Berlin, Germany

    Simplicity-in-design and processing to reach minimum operating power and maximum bandwidth, energy efficiency, and temperature stability limits of vertical-cavity surface-emitting lasers (VCSELs) by for example reducing the vertical and lateral dimensions are explored. We seek optimized VCSELs for data communications and photonic integration.