Imaging through turbulence using compressive coherence sensing | Zendy

Ashwin A. Wagadarikar | Zendy; Daniel L. Marks | Zendy; Kerkil Choi | Zendy; Ryoichi Horisaki | Zendy; David J. Brady | Zendy

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Imaging through turbulence using compressive coherence sensing

Author(s) -

Ashwin A. Wagadarikar,

Daniel L. Marks,

Kerkil Choi,

Ryoichi Horisaki,

David J. Brady

Publication year - 2010

Publication title -

optics letters

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 1.524

H-Index - 272

eISSN - 1071-2763

pISSN - 0146-9592

DOI - 10.1364/ol.35.000838

Subject(s) - turbulence , coherence (philosophical gambling strategy) , optics , mutual coherence , physics , phase retrieval , distortion (music) , compressed sensing , computer science , atmospheric turbulence , computer vision , algorithm , fourier transform , amplifier , quantum mechanics , thermodynamics , optoelectronics , cmos

Previous studies have shown that the isoplanatic distortion due to turbulence and the image of a remote object may be jointly estimated from the 4D mutual intensity across an aperture. This Letter shows that decompressive inference on a 2D slice of the 4D mutual intensity, as measured by a rotational shear interferometer, is sufficient for estimation of sparse objects imaged through turbulence. The 2D slice is processed using an iterative algorithm that alternates between estimating the sparse objects and estimating the turbulence-induced phase screen. This approach may enable new systems that infer object properties through turbulence without exhaustive sampling of coherence functions.

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