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Long range observation through atmospheric turbulence is hampered by spatiotemporally randomly varying shifting and blurring of scene points in recorded imagery. The image quality degradation induced by turbulence will limit the performance of the system. To mitigate the effect, various hardware strategies combining wavefront sensors together with adaptive optics have been proposed. Both components are associated in a control loop designed to compensate in real time for the aberrations induced by turbulence and reach a system performance close to the diffraction limit. Those techniques are designed for observations of punctual sources within a narrow field of view under which the effect of turbulence can be considered as spatially constant. Unfortunately, the majority of long range horizontal path imaging applications deal with extended sources that are wider than the area under which the turbulence effect is assumed constant. For long range horizontal observation, we devise here a method implementing wavefront sensing using a high speed camera. The system relies on two images of the same scene and same atmosphere realization, having one of the images distorted by a controlled aberration. We describe the simulation and the design choices made for the implementation of such a system. We show that this method allows to measure the relevant shape of the wavefront and provides a way to correct for the effect of atmospheric turbulence.
Conference Presentation
(2023) Published by SPIE. Downloading of the abstract is permitted for personal use only.
Nicolas Boehrer,Robert P. J. Nieuwenhuizen,Judith Dijk,Bart van de Laar,Benjamin Brenny, andNiek Doelman
"Design of an imaging system for turbulence mitigation using phase diversity", Proc. SPIE 12737, Electro-Optical and Infrared Systems: Technology and Applications XX, 127370A (23 October 2023); https://doi.org/10.1117/12.2683567
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Nicolas Boehrer, Robert P. J. Nieuwenhuizen, Judith Dijk, Bart van de Laar, Benjamin Brenny, Niek Doelman, "Design of an imaging system for turbulence mitigation using phase diversity," Proc. SPIE 12737, Electro-Optical and Infrared Systems: Technology and Applications XX, 127370A (23 October 2023); https://doi.org/10.1117/12.2683567