2014
DOI: 10.1364/oe.22.013586
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Aperture-scanning Fourier ptychography for 3D refocusing and super-resolution macroscopic imaging

Abstract: Abstract:We report an imaging scheme, termed aperture-scanning Fourier ptychography, for 3D refocusing and super-resolution macroscopic imaging. The reported scheme scans an aperture at the Fourier plane of an optical system and acquires the corresponding intensity images of the object. The acquired images are then synthesized in the frequency domain to recover a high-resolution complex sample wavefront; no phase information is needed in the recovery process. We demonstrate two applications of the reported sch… Show more

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Cited by 169 publications
(105 citation statements)
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“…The spatial coherence length of the illuminating beam must be as wide as the sample at the object plane (approximately 5 mm here). Likewise, the source's temporal coherence must follow the quasi-monochromatic condition in [35], although a spectral bandwidth full width half maximum of approximately 10 nm has been observed as sufficiently narrow [13,40]. Both conditions may be achieved with an LED placed sufficient far behind the sample.…”
Section: Resultsmentioning
confidence: 99%
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“…The spatial coherence length of the illuminating beam must be as wide as the sample at the object plane (approximately 5 mm here). Likewise, the source's temporal coherence must follow the quasi-monochromatic condition in [35], although a spectral bandwidth full width half maximum of approximately 10 nm has been observed as sufficiently narrow [13,40]. Both conditions may be achieved with an LED placed sufficient far behind the sample.…”
Section: Resultsmentioning
confidence: 99%
“…Unlike in the related Fourier ptychographic microscope [3], the sample here may be thick, optically reflective, and under arbitrary quasi-coherent illumination. While the aperture scanning procedure in [13] also follows similar steps, OFC's SLM modulator requires certain algorithm modifications that we outline below.…”
Section: Aberration-free Ofc Reconstructionmentioning
confidence: 99%
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“…There also have been numerous efforts in improving the Fourier ptychographic (FP) reconstruction by adopting more noise-robust algorithms [15][16][17][18]. Alternative FPM modalities involving aperture scanning instead of angular illuminations were demonstrated, which allowed for imaging the complex field of a thick specimen [19,20] and estimating optical aberrations [21]. Imaging a thick specimen with angular illuminations also became possible by employing the first Born approximation [22] or multislice coherent model [23].…”
Section: Introductionmentioning
confidence: 99%
“…The thin-sample requirement can be circumvented by implementing FP with an alternate configuration, in which a scannable aperture is placed at the Fourier plane of the imaging system while the sample is illuminated with a single plane wave [7]. In this configuration, the 2D wavefront (light field scattered by the sample's 3D distribution) exiting the thick sample is modulated by the scannable aperture, captured at the imaging plane, and reconstructed by the conventional FP algorithm.…”
Section: Introductionmentioning
confidence: 99%