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Self-reconstructing Bessel beam created by two-photon-polymerized micro-axicon for light-sheet fluorescence microscopy

Shufan Li, Jiannan Jiao, Jeeranan Boonruangkan, Hui Ting Toh, Jianing An, Pei‐Chen Su, C. S. Suchand Sandeep, Young‐Jin Kim

2021Results in Physics13 citationsDOIOpen Access PDF

Abstract

Observing micro-organisms with depth-resolving capability is important in optical microscopy for biomedical sciences and industries. We demonstrate the fabrication and use of a two-photon polymerized micro-axicon lens that generates a self-reconstructing pencil-like Bessel beam for light-sheet fluorescence microscopy (LSFM), providing 3D internal structures of micro-organisms. The fabricated SU-8 micro-axicon of 100 µm diameter transforms the input Gaussian beam from a single-mode fiber into a non-diffractive Bessel-Gauss beam. The focused spot size of the Bessel-Gauss beam is 2.3 ± 0.25 µm with a long propagation distance over 160 µm, which is well-suited for LSFM. The self-reconstruction capability of the generated Bessel-Gauss beam is investigated thoroughly through both simulations and experiments. Since this micro-axicon can be directly 3D-printed on single-mode fibers’ end facets or small mobile substrates, this can replace the bulky objective lens from conventional light-sheet microscopes. This will facilitate the wide-spread use of 3D tomographic imaging of micro-organisms, especially in compact micro-fluidic devices and lab-on-a-chip architectures.

Topics & Concepts

AxiconBessel beamOpticsLight sheet fluorescence microscopyTwo-photon excitation microscopyMicroscopyFluorescence microscopeFluorescenceMaterials scienceFluorescent lightBeam (structure)Bessel functionMultiphoton fluorescence microscopeLaser beamsPhysicsLaserAdvanced Fluorescence Microscopy TechniquesNonlinear Optical Materials StudiesOptical Coherence Tomography Applications
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