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Main Authors: Cui, Jiafeng, Buchs, Gilles, Seck, Christopher M.
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2507.15786
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author Cui, Jiafeng
Buchs, Gilles
Seck, Christopher M.
author_facet Cui, Jiafeng
Buchs, Gilles
Seck, Christopher M.
contents We present a robust objective lens optimized for applications requiring both high numerical aperture (NA) and long front working distance imaging comprised of all commercial-off-the-shelf (COTS) singlet lenses. Unlike traditional designs that require separate collimation and refocusing stages, our approach directly converges imaged light to the back focal plane using a single lens group. Our configuration corrects spherical aberrations and efficiently collects light to achieve diffraction-limited performance across a wide range of wavelengths while simplifying alignment and assembly. Using this approach, we design and construct an example objective lens that features a long front working distance of 61 mm and a clipped NA of 0.30 (limited by an aperture in our experimental setup). We experimentally verify that it achieves monochromatic diffraction-limited resolution at wavelengths from 375 nm to 866 nm without requiring replacement of the lenses or changing the inter-lens spacings, and its performance remains robust across a 46 mm range variation in total length (by adjusting mainly the back working distances). Additionally, we develop a quantitative method to measure the field of view (FOV) using an experimentally-calibrated pinhole target. Under 397 nm illumination (i.e. from $^{40}$Ca$^+$ ion fluorescence), the objective achieves a resolution of 0.87 $μ$m with a 540 $μ$m FOV. This robust, all-COTS, and versatile design is well-suited for a broad range of experiments, supporting high-precision measurements and exploring quantum phenomena.
format Preprint
id arxiv_https___arxiv_org_abs_2507_15786
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle A Robust COTS Objective for Diffraction-Limited, High-NA, Long Front Working Distance Imaging
Cui, Jiafeng
Buchs, Gilles
Seck, Christopher M.
Atomic Physics
Optics
Quantum Physics
We present a robust objective lens optimized for applications requiring both high numerical aperture (NA) and long front working distance imaging comprised of all commercial-off-the-shelf (COTS) singlet lenses. Unlike traditional designs that require separate collimation and refocusing stages, our approach directly converges imaged light to the back focal plane using a single lens group. Our configuration corrects spherical aberrations and efficiently collects light to achieve diffraction-limited performance across a wide range of wavelengths while simplifying alignment and assembly. Using this approach, we design and construct an example objective lens that features a long front working distance of 61 mm and a clipped NA of 0.30 (limited by an aperture in our experimental setup). We experimentally verify that it achieves monochromatic diffraction-limited resolution at wavelengths from 375 nm to 866 nm without requiring replacement of the lenses or changing the inter-lens spacings, and its performance remains robust across a 46 mm range variation in total length (by adjusting mainly the back working distances). Additionally, we develop a quantitative method to measure the field of view (FOV) using an experimentally-calibrated pinhole target. Under 397 nm illumination (i.e. from $^{40}$Ca$^+$ ion fluorescence), the objective achieves a resolution of 0.87 $μ$m with a 540 $μ$m FOV. This robust, all-COTS, and versatile design is well-suited for a broad range of experiments, supporting high-precision measurements and exploring quantum phenomena.
title A Robust COTS Objective for Diffraction-Limited, High-NA, Long Front Working Distance Imaging
topic Atomic Physics
Optics
Quantum Physics
url https://arxiv.org/abs/2507.15786