2014
DOI: 10.1103/physrevlett.113.113901
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Full-Field Subwavelength Imaging Using a Scattering Superlens

Abstract: Light-matter interaction gives optical microscopes tremendous versatility compared with other imaging methods such as electron microscopes, scanning probe microscopes, or x-ray scattering where there are various limitations on sample preparation and where the methods are inapplicable to bioimaging with live cells. However, this comes at the expense of a limited resolution due to the diffraction limit. Here, we demonstrate a novel method utilizing elastic scattering from disordered nanoparticles to achieve subd… Show more

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Cited by 88 publications
(71 citation statements)
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References 30 publications
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“…Once the TM is known, it can be inverted to descramble any transmitted image [19,22,43,47,49]. Other promising computational approaches are under development, such as the use of spectral encoding [98].…”
Section: Computational Imagingmentioning
confidence: 99%
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“…Once the TM is known, it can be inverted to descramble any transmitted image [19,22,43,47,49]. Other promising computational approaches are under development, such as the use of spectral encoding [98].…”
Section: Computational Imagingmentioning
confidence: 99%
“…1 is replaced by a camera, it is possible to measure multiple rows of the TM at once [43]. This technique is extremely powerful as it allows for transmitting images [47,48], direct imaging [22,49], raster scanning fluorescence microscopy [16], and maximizing the transmission to a given large-area target [41]. Also, it allows a determination of the eigenvalues of the TM [39, 41, 43], the statistical distribution of which is of fundamental interest in mesoscopic scattering theory (e. g [31].).…”
Section: Transmission Matrix Measurementsmentioning
confidence: 99%
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“…15,28,29 When a coherent beam illuminates a disordered medium consisting of random nanoparticles, it generates random speckle patterns. The size of granular of the speckle patterns are smaller than the diffraction limit because subwavelength optical structures of the disordered medium can effectively couple the incident far-field components to the scattered near-field components.…”
mentioning
confidence: 99%
“…In the spatial domain, the input bases correspond to point sources at different spatial locations 32) . In the spatial frequency domain, the input bases correspond to plane waves with different propagation angles 36) .…”
Section: The Measurement Of Transmission Matricesmentioning
confidence: 99%