Light-field microscopy with correlated beams for extended volumetric imaging at the diffraction limit

Abstract

Light-field microscopy represents a promising solution for microscopic volumetric imaging, thanks to its capability to encode information on multiple planes in a single acquisition. This is achieved through its peculiar simultaneous capture of information on light spatial distribution and propagation direction. However, state-of-the-art light-field microscopes suffer from a detrimental loss of spatial resolution compared to standard microscopes. We propose and experimentally demonstrate a light-field microscopy architecture based on light intensity correlation, in which resolution is limited only by diffraction. We demonstrate the effectiveness of our technique in refocusing three-dimensional test targets and biological samples out of the focused plane. We improve the depth of field by a factor 6 with respect to conventional microscopy, at the same resolution, and obtain, from one acquired correlation image, about 130,000 images, all seen from different perspectives; such multi-perspective images are employed to reconstruct over 40 planes within a 1 \,mm3 sample with a diffraction-limited resolution voxel of 20 × 20 × 30\ μm3.

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