Litcius/Paper detail

Self-calibrated 3D differential phase contrast microscopy with optimized illumination

Ruiming Cao, Michael Kellman, David Ren, Regina Eckert, Laura Waller

2022Biomedical Optics Express18 citationsDOIOpen Access PDF

Abstract

3D phase imaging recovers an object's volumetric refractive index from intensity and/or holographic measurements. Partially coherent methods, such as illumination-based differential phase contrast (DPC), are particularly simple to implement in a commercial brightfield microscope. 3D DPC acquires images at multiple focus positions and with different illumination source patterns in order to reconstruct 3D refractive index. Here, we present a practical extension of the 3D DPC method that does not require a precise motion stage for scanning the focus and uses optimized illumination patterns for improved performance. The user scans the focus by hand, using the microscope's focus knob, and the algorithm self-calibrates the axial position to solve for the 3D refractive index of the sample through a computational inverse problem. We further show that the illumination patterns can be optimized by an end-to-end learning procedure. Combining these two, we demonstrate improved 3D DPC with a commercial microscope whose only hardware modification is LED array illumination.

Topics & Concepts

OpticsFocus (optics)Phase-contrast imagingRefractive indexHolographyMicroscopyMaterials scienceDepth of focus (tectonics)Position (finance)Differential interference contrast microscopyDigital holographic microscopyAutofocusPhase (matter)Computer scienceArtificial intelligencePhase contrast microscopyMicroscopeComputer visionSample (material)Contrast (vision)Light sheet fluorescence microscopyHolographic displayStereo displayInverse problemDigital holographyPhase retrievalImage processingIntensity (physics)Optical microscopeRefractive index profileBright-field microscopyBiophotonicsOptical coherence tomography3D reconstructionSpatial frequencyOptical sectioningDifferential (mechanical device)Light intensityPoint spread functionInverseDigital Holography and MicroscopyAdvanced X-ray Imaging TechniquesOptical measurement and interference techniques