Optics and Actuation Co-Design for an Implantable Reflectance Confocal Microscope with Large Working Distance
2022 IEEE/ASME INTERNATIONAL CONFERENCE ON ADVANCED INTELLIGENT MECHATRONICS (AIM)(2022)
摘要
We discuss optical and actuator design considerations in developing a miniature reflection confocal microscope (RCM) based on parametrically-resonant MEMS micro-mirrors. Microscope form factor targets real-time imaging of the brain in small animals, at subcellular resolution. Candidate designs start with a combination of lens sequence, micro-mirror size, and scanning angle, within packaging dimensions for eventual implantation on a freely-behaving mouse. Design optimization focuses on maintaining the diffraction-limited resolution over large field-of-view (FOV), while ensuring large feasible micro-mirror operating frequency. After investigation of optical configurations and required mirror performance over tradeoffs such as working distance (WD) and numerical aperture (NA), we demonstrate a system providing 1.5 mu m lateral and 6 mu m axial resolution with 350x350 mu m FOV and 303 mu m WD.
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关键词
implantable reflectance confocal microscope,optical actuator design considerations,miniature reflection confocal microscope,parametrically-resonant MEMS micromirrors,microscope form factor targets real-time imaging,subcellular resolution,lens sequence,micromirror size,scanning angle,design optimization,diffraction-limited resolution,micromirror operating frequency,optical configurations,numerical aperture,axial resolution
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