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WE3 - Optical System Architecture Session Presider: Stephen Ralph
1:30-3:00 Salon VII
WE3.1 -
Convergence of Millmeter-wave and Optical Access Networks Invited
01:30-02:00
2017-10-04 01:30 2017-10-04 02:00 America/Denver Convergence of Millmeter-wave and Optical Access Networks TBD Hilton Santa Fe Historic Plaza Salon VII

    A. Stoehr , Unversity of Duisburg Essen, Germany

    TBD
WE3.2 -
Free-space Optical Links Enhanced by Twisted Photons Invited
02:00-02:30
2017-10-04 02:00 2017-10-04 02:30 America/Denver Free-space Optical Links Enhanced by Twisted Photons Free-space links can be enchanted with incorporation of Space Division Multiplexing (SDM). Orbital Angular Momentum (OAM) multiplexing is potential form of SDM for use in optical links. Optical technologies for OAM multiplexing will be discussed, along with performance results from a 1.6 km urban link. Hilton Santa Fe Historic Plaza Salon VII

    M. Lavery , University of Glasgow, Glasgow, United Kingdom

    Free-space links can be enchanted with incorporation of Space Division Multiplexing (SDM). Orbital Angular Momentum (OAM) multiplexing is potential form of SDM for use in optical links. Optical technologies for OAM multiplexing will be discussed, along with performance results from a 1.6 km urban link.
WE3.3 -
Terahertz Systems Based on Resonant Tunneling Diodes and Photonic Crystals Invited
02:30-03:00
2017-10-04 02:30 2017-10-04 03:00 America/Denver Terahertz Systems Based on Resonant Tunneling Diodes and Photonic Crystals Terahertz waves, which represent the frequency region between radio and light waves, offer unique potential applications, including ultra-broadband wireless communication. Here, we report the recent progress of terahertz systems based on resonant tunneling diodes and photonic crystals, which enable compact, low-power-consumption and integrated systems. Hilton Santa Fe Historic Plaza Salon VII

    M. Fujita , Osaka University, Toyonaka, Japan

    Terahertz waves, which represent the frequency region between radio and light waves, offer unique potential applications, including ultra-broadband wireless communication. Here, we report the recent progress of terahertz systems based on resonant tunneling diodes and photonic crystals, which enable compact, low-power-consumption and integrated systems.