Quantitative phase and refractive index imaging of 3D objects via optical transfer function reshaping
Herve Hugonnet, Mahn Jae Lee, Yong Keun Park
Abstract
Deconvolution phase microscopy enables high-contrast visualization of transparent samples through reconstructions of their transmitted phases or refractive indexes. Herein, we propose a method to extend 2D deconvolution phase microscopy to thick 3D samples. The refractive index distribution of a sample can be obtained at a specific axial plane by measuring only four intensity images obtained under optimized illumination patterns. Also, the optical phase delay of a sample can be measured using different illumination patterns.
Topics & Concepts
OpticsRefractive indexDeconvolutionMaterials scienceOptical transfer functionPhase-contrast imagingMicroscopyPhase (matter)Point spread functionSpatial frequencyPhase retrievalInterference microscopyTransfer functionDigital holographic microscopySample (material)Optical microscopePhase modulationLight intensityAttenuation coefficientRefractometryMicroscopeVisualizationIntensity (physics)Image planePhase imagingCardinal pointImage processingPlane (geometry)PtychographyDigital Holography and MicroscopyAdvanced X-ray Imaging TechniquesRandom lasers and scattering media