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Characterization of SiN Integrated Optical Phased Arrays on a Wafer-Scale Test Station
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Optical phased-array ladar.

Juan Montoya, Antonio Sanchez-Rubio, Robert Hatch

    Applied Optics
    |November 18, 2014
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    Summary
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    Researchers developed a new laser detection and ranging (ladar) system achieving 0.5m range resolution. This innovative approach uses continuous-wave optical phased arrays and Geiger-mode avalanche photodiodes for enhanced performance.

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    Area of Science:

    • Optical Engineering
    • Laser Technology
    • Remote Sensing

    Background:

    • Conventional ladar systems face limitations in range resolution and system complexity.
    • There is a need for ladar systems with improved resolution, efficiency, and scalability.

    Purpose of the Study:

    • To demonstrate a novel ladar system with 0.5m class range resolution.
    • To leverage continuous-wave optical phased-array transmitters and Geiger-mode avalanche photodiode receiver arrays for enhanced ladar capabilities.

    Main Methods:

    • Integration of a continuous-wave optical phased-array transmitter with a Geiger-mode avalanche photodiode receiver array.
    • Utilizing electro-optically steered far-field fringes to create effective pulse illumination.
    • Measuring pulse return arrival times to determine range information.

    Main Results:

    • Achieved a ladar system with 0.5m class range resolution.
    • Demonstrated effective pulse illumination through steered optical fringes.
    • Confirmed range measurement via pulse return time-of-flight.

    Conclusions:

    • The developed ladar system offers significant improvements in range resolution.
    • This technology presents benefits such as broad spectral coverage, high efficiency, and scalability.
    • The system's versatility makes it suitable for various remote sensing applications.