Dome-APIC illumination design for high space-bandwidth product analytic imaging

Abstract

Breaking the tradeoff between resolution and field-of-view, while obtaining distortion-free images, can be achieved through computational imaging techniques. A recent approach, Angular Ptychographic Imaging with Close-form method (APIC), has showcased its capability to analytically recover both intricate aberrations and high space-bandwidth product complex optical fields with NA-matching and darkfield illuminations. However, its flat illumination setup limits its ability to efficiently reconstruct a large field-of-view simultaneously with high resolution, owing to the curvature in the wavefront from NA-matching illuminations and the finite beam angle of the Lambertian LED light source. Here, we introduce an illumination framework tailored for APIC consisting of a distant annular LED ring and an LED dome that enables the reconstruction of a larger area with an extended synthetic numerical aperture, consequently enhancing resolution. For a single set of measurements, our new prototype, termed Dome-APIC can reach 620nm resolution with a 10×/0.25 NA objective lens over a field-of-view of 450 µm x 450 µm.

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