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Related Experiment Video

Updated: Feb 6, 2026

Characterization of SiN Integrated Optical Phased Arrays on a Wafer-Scale Test Station
05:57

Characterization of SiN Integrated Optical Phased Arrays on a Wafer-Scale Test Station

Published on: April 1, 2020

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Array tilt in the atmosphere and its effect on optical phased array performance.

Milo W Hyde

    Journal of the Optical Society of America. A, Optics, Image Science, and Vision
    |August 16, 2018
    PubMed
    Summary
    This summary is machine-generated.

    Atmospheric array tilt significantly impacts optical phased array (OPA) performance when uncorrected. However, when atmospheric tilt is compensated, its effect on OPA target-plane intensity becomes negligible.

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    Area of Science:

    • Optical Engineering
    • Adaptive Optics
    • Atmospheric Optics

    Background:

    • Optical phased arrays (OPAs) are crucial for beam steering and target tracking.
    • Atmospheric turbulence introduces wavefront distortions, including tilt, affecting OPA performance.
    • Understanding the impact of atmospheric tilt is vital for designing robust OPA systems.

    Purpose of the Study:

    • To investigate the effect of atmospheric array tilt on target-in-the-loop OPA performance.
    • To derive analytical expressions for atmospheric array tilt variance.
    • To quantify the impact of tilt compensation on OPA target-plane intensity.

    Main Methods:

    • Derivation of atmospheric array tilt variance using Mellin transform techniques.
    • Analysis of OPA performance under different tilt compensation scenarios.
    • Calculation of moments of far-zone array intensity.
    • Validation through Monte Carlo simulations.

    Main Results:

    • Two expressions for atmospheric array tilt variance were derived: 'full' and 'Zernike-tilt-removed'.
    • Full array tilt variance significantly impacts OPA target-plane intensity.
    • Zernike-tilt-removed array tilt variance negligibly affects OPA performance when tilt is compensated.
    • Theoretical expressions were validated by Monte Carlo simulations.

    Conclusions:

    • Atmospheric tilt compensation is critical for maintaining OPA performance.
    • The derived theoretical models accurately predict the impact of atmospheric tilt.
    • This research provides insights for optimizing OPA systems operating in turbulent atmospheres.