Imaging of objects through a thin scattering layer using a spectrally and spatially separated reference

Incoherently illuminated or luminescent objects give rise to a low-contrast speckle-like pattern when observed through a thin diffusive medium, as such a medium effectively convolves their shape with a speckle-like point spread function (PSF). This point spread function can be extracted in the prese...

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Veröffentlicht in:	Optics express 2018-06, Vol.26 (12), p.15073-15083
Hauptverfasser:	Xu, Xiaoqing, Xie, Xiangsheng, Thendiyammal, Abhilash, Zhuang, Huichang, Xie, Junpeng, Liu, Yikun, Zhou, Jianying, Mosk, Allard P
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container_issue	12
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container_title	Optics express
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creator	Xu, Xiaoqing Xie, Xiangsheng Thendiyammal, Abhilash Zhuang, Huichang Xie, Junpeng Liu, Yikun Zhou, Jianying Mosk, Allard P
description	Incoherently illuminated or luminescent objects give rise to a low-contrast speckle-like pattern when observed through a thin diffusive medium, as such a medium effectively convolves their shape with a speckle-like point spread function (PSF). This point spread function can be extracted in the presence of a reference object of known shape. Here it is shown that reference objects that are both spatially and spectrally separated from the object of interest can be used to obtain an approximation of the point spread function. The crucial observation, corroborated by analytical calculations, is that the spectrally shifted point spread function is strongly correlated to a spatially scaled one. With the approximate point spread function thus obtained, the speckle-like pattern is deconvolved to produce a clear and sharp image of the object on a speckle-like background of low intensity.
doi_str_mv	10.1364/OE.26.015073
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title	Imaging of objects through a thin scattering layer using a spectrally and spatially separated reference
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