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Super-resolution multicolor fluorescence microscopy enabled by an apochromatic super-oscillatory lens with extended depth-of-focus

Wenli Li, Pei He, Dangyuan Lei, Yulong Fan, Yangtao Du, Bo Gao, Zhiqin Chu, Longqiu Li, Kaipeng Liu, Chengxu An, Weizheng Yuan, Yiting Yu

2023Nature Communications27 citationsDOIOpen Access PDF

Abstract

Planar super-oscillatory lens (SOL), a far-field subwavelength-focusing diffractive device, holds great potential for achieving sub-diffraction-limit imaging at multiple wavelengths. However, conventional SOL devices suffer from a numerical-aperture-related intrinsic tradeoff among the depth of focus (DoF), chromatic dispersion and focusing spot size. Here, we apply a multi-objective genetic algorithm (GA) optimization approach to design an apochromatic binary-phase SOL having a prolonged DoF, customized working distance (WD), minimized main-lobe size, and suppressed side-lobe intensity. Experimental implementation demonstrates simultaneous focusing of blue, green and red light beams into an optical needle of ~0.5λ in diameter and DOF > 10λ at WD = 428 μm. By integrating this SOL device with a commercial fluorescence microscope, we perform, for the first time, three-dimensional super-resolution multicolor fluorescence imaging of the "unseen" fine structures of neurons. The present study provides not only a practical route to far-field multicolor super-resolution imaging but also a viable approach for constructing imaging systems avoiding complex sample positioning and unfavorable photobleaching.

Topics & Concepts

OpticsLens (geology)PhotobleachingMicroscopeNumerical apertureChromatic aberrationFocus (optics)MicroscopyPlanarDiffractionDepth of fieldMaterials scienceDepth of focus (tectonics)Aperture (computer memory)Resolution (logic)Fluorescence-lifetime imaging microscopyWavelengthComputer scienceLight sheet fluorescence microscopyFluorescence microscopeFluorescenceChromatic scalePhysicsArtificial intelligenceSubductionAcousticsTectonicsComputer graphics (images)PaleontologyBiologyAdvanced Fluorescence Microscopy TechniquesNear-Field Optical MicroscopyDigital Holography and Microscopy
Super-resolution multicolor fluorescence microscopy enabled by an apochromatic super-oscillatory lens with extended depth-of-focus | Litcius