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Single-shot refractive index slice imaging using spectrally multiplexed optical transfer function reshaping

Chungha Lee, Hervé Hugonnet, Juyeon Park, Mahn Jae Lee, Weisun Park, YongKeun Park

2023Optics Express10 citationsDOIOpen Access PDF

Abstract

The refractive index (RI) of cells and tissues is crucial in pathophysiology as a noninvasive and quantitative imaging contrast. Although its measurements have been demonstrated using three-dimensional quantitative phase imaging methods, these methods often require bulky interferometric setups or multiple measurements, which limits the measurement sensitivity and speed. Here, we present a single-shot RI imaging method that visualizes the RI of the in-focus region of a sample. By exploiting spectral multiplexing and optical transfer function engineering, three color-coded intensity images of a sample with three optimized illuminations were simultaneously obtained in a single-shot measurement. The measured intensity images were then deconvoluted to obtain the RI image of the in-focus slice of the sample. As a proof of concept, a setup was built using Fresnel lenses and a liquid-crystal display. For validation purposes, we measured microspheres of known RI and cross-validated the results with simulated results. Various static and highly dynamic biological cells were imaged to demonstrate that the proposed method can conduct single-shot RI slice imaging of biological samples with subcellular resolution.

Topics & Concepts

OpticsRefractive indexOptical transfer functionMultiplexingMaterials scienceFocus (optics)InterferometrySpatial frequencyImage resolutionSample (material)Phase-contrast imagingComputer sciencePhysicsPhase contrast microscopyTelecommunicationsThermodynamicsDigital Holography and MicroscopyOptical Coherence Tomography ApplicationsAdvanced Fluorescence Microscopy Techniques
Single-shot refractive index slice imaging using spectrally multiplexed optical transfer function reshaping | Litcius