#getConfInfo.name#
MH1 - SDM and Submarine System Session Presider: Gabriella Bosco
8:30-10:00 Poinsettia/ Quince
MH1.1 -
Power Efficient Long-haul Transmission Using Multi-core Fiber Invited
08:30-09:00
2017-10-02 08:30 2017-10-02 09:00 America/Denver Power Efficient Long-haul Transmission Using Multi-core Fiber Focusing on an SDM-based approach, we show that MCF can be used to increase capacity and improve power efficiency for power limited systems. We review recent long-haul high capacity experiments using MCF and discuss design options to improve power efficiency and capacity. Hilton Santa Fe Historic Plaza Poinsettia/ Quince

    A. Turukhin , TE Subcom

    Focusing on an SDM-based approach, we show that MCF can be used to increase capacity and improve power efficiency for power limited systems. We review recent long-haul high capacity experiments using MCF and discuss design options to improve power efficiency and capacity.
MH1.2 -
Two-dimensional Spatial Coherent Matched Detection Scheme for Modal Separation and Homodyne Detection of Mode-Division Multiplexed Signals
09:00-09:15
2017-10-02 09:00 2017-10-02 09:15 America/Denver Two-dimensional Spatial Coherent Matched Detection Scheme for Modal Separation and Homodyne Detection of Mode-Division Multiplexed Signals We propose and investigate two-dimensional spatial coherent matched detection using high-speed photodiode array. Without optical spatial filtering/splitting, all mode-division multiplexed (MDM) channels are coherently demultiplexed and detected, ideally yielding 3-dB optical loss for any MDM signals. Hilton Santa Fe Historic Plaza Poinsettia/ Quince

    T. Sakamoto , NICT, Tokyo, Japan, T. Umezawa , NICT, Toyo, Japan N. Yamamoto , NICT, Tokyo, Japan T. Kawanishi , NICT, Tokyo, Japan

    We propose and investigate two-dimensional spatial coherent matched detection using high-speed photodiode array. Without optical spatial filtering/splitting, all mode-division multiplexed (MDM) channels are coherently demultiplexed and detected, ideally yielding 3-dB optical loss for any MDM signals.
MH1.3 -
Mode Characterization of Rectangular Core Fiber
09:15-09:30
2017-10-02 09:15 2017-10-02 09:30 America/Denver Mode Characterization of Rectangular Core Fiber A few-mode fiber prototype having a rectangular core geometry is experimentally characterized for its modal delays and field profiles by time-gated interferogram analysis. Good agreement to numerical simulations is established. Hilton Santa Fe Historic Plaza Poinsettia/ Quince

    D. Marom , Professor, Jerusalem, Israel, L. Rechtman , MSc student, Jerusalem, Israel J. Stone , Doctor, Corning, NY, United States G. Peng , Doctor, Corning, NY, United States M. Li , Doctor, Corning, NY, United States

    A few-mode fiber prototype having a rectangular core geometry is experimentally characterized for its modal delays and field profiles by time-gated interferogram analysis. Good agreement to numerical simulations is established.
MH1.4 -
The New Era of Open Submarine Cables Invited
09:30-10:00
2017-10-02 09:30 2017-10-02 10:00 America/Denver The New Era of Open Submarine Cables TBD Hilton Santa Fe Historic Plaza Poinsettia/ Quince

    S. Grubb , Facebook

    TBD