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ThA1 - Photonic Systems for Aerospace and Antenna Applications Session Presider: James Adleman
8:30-10:00 Salon I
ThA1.1 -
DWDM Systems for Aerospace High-Speed Digital and RF Transport Invited
08:30-09:00
2017-10-05 08:30 2017-10-05 09:00 America/Denver DWDM Systems for Aerospace High-Speed Digital and RF Transport A Dense Wavelength Division Multplexed (DWDM) system can be used to provide a scalable high-speed digital and RF transport for aerospace applications using C-band optical spacing per the ITU grid enabling multiple digital and analog signals to coexist on a common passive optical transport. Hilton Santa Fe Historic Plaza Salon I

    R. Stevens , Lockheed Martin ATL, Eagan, MN, United States

    A Dense Wavelength Division Multplexed (DWDM) system can be used to provide a scalable high-speed digital and RF transport for aerospace applications using C-band optical spacing per the ITU grid enabling multiple digital and analog signals to coexist on a common passive optical transport.
ThA1.2 -
A Photonic Receiver Based on Stretch Processing for Synthetic Aperture Radar
09:00-09:15
2017-10-05 09:00 2017-10-05 09:15 America/Denver A Photonic Receiver Based on Stretch Processing for Synthetic Aperture Radar A novel photonic stretch receiver for synthetic aperture radar is developed and experimentally demonstrated. The photonic receiver is proved in a microwave anechoic chamber, and evaluated through inverse SAR imaging tests in a field trial. Hilton Santa Fe Historic Plaza Salon I

    R. Li , IECAS, Beijing, China, W. Li , IECAS, Beijing, China M. Ding , IECAS, Beijing, China Z. Wen , IECAS, Beijing, China Y. Tian , IECAS, Beijing, China X. Liang , IECAS, Beijing, China

    A novel photonic stretch receiver for synthetic aperture radar is developed and experimentally demonstrated. The photonic receiver is proved in a microwave anechoic chamber, and evaluated through inverse SAR imaging tests in a field trial.
ThA1.3 -
Photonically-Enabled Imaging Receiver Invited
09:15-09:45
2017-10-05 09:15 2017-10-05 09:45 America/Denver Photonically-Enabled Imaging Receiver Recent advances in spatial synchronization of photonically sampled phased array receivers have enabled the creation of massively multibeam non-blocking receivers at microwave and millimeter-wave frequencies. Applications and realizations of these receivers for passive imaging, communications, RADAR, and electronic support in the microwave/millimeter-wave spectrum are presented. Hilton Santa Fe Historic Plaza Salon I

    C. Schuetz , Phase Sensitive Innovations, Newark, DE, United States, G. Schneider , University of Delaware, Newark, DE, United States J. Murakowski , University of Delaware, Newark, DE, United States S. Shi , University of Delaware, Newark, DE, United States D. Prather , University of Delaware, Newark, DE, United States

    Recent advances in spatial synchronization of photonically sampled phased array receivers have enabled the creation of massively multibeam non-blocking receivers at microwave and millimeter-wave frequencies. Applications and realizations of these receivers for passive imaging, communications, RADAR, and electronic support in the microwave/millimeter-wave spectrum are presented.