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Main Authors: Palacios, Yryx Y. Luna, Hoang, Tuyet N. A., Khandani, Salile, Clark, Stephan, Bauer, Aaron, Rolland, Jannick P., Potma, Eric O., Hanninen, Adam M.
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2507.08185
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author Palacios, Yryx Y. Luna
Hoang, Tuyet N. A.
Khandani, Salile
Clark, Stephan
Bauer, Aaron
Rolland, Jannick P.
Potma, Eric O.
Hanninen, Adam M.
author_facet Palacios, Yryx Y. Luna
Hoang, Tuyet N. A.
Khandani, Salile
Clark, Stephan
Bauer, Aaron
Rolland, Jannick P.
Potma, Eric O.
Hanninen, Adam M.
contents Nonlinear optical (NLO) imaging platforms traditionally rely on refractive microscope objectives, which suffer from chromatic aberrations and temporal dispersion of pulsed excitation light. These issues degrade spatial imaging properties and signal brightness. Furthermore, the limited transmission range of refractive materials restricts NLO imaging, especially for applications requiring short- to mid-wave infrared excitation. While reflective microscope objectives offer an achromatic solution and broader transmission range (from visible to mid-infrared), conventional Schwarzschild designs have a central obscuration, which limits transmission throughput, imparts diffraction effects into the images, and, more generally, hinders the adoption of reflective optics in NLO microscopy. We overcome these obscuration-based limitations by developing a novel, reflective microscope objective using freeform mirrors in a non-coaxial geometry. This innovative, obscuration-free design boasts a 0.65 numerical aperture (NA), near diffraction-limited imaging performance, and offers significantly improved transmission with wider fields-of-view. We demonstrate its utility by integrating it into a standard laser-scanning microscope and performing NLO microscopy across a wide range of excitation wavelengths. Our freeform microscope objective outperforms standard reflective designs, providing an achromatic, dispersion-free alternative to refractive lenses for NLO imaging.
format Preprint
id arxiv_https___arxiv_org_abs_2507_08185
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Nonlinear optical microscopy with an obscuration-free, freeform reflective objective
Palacios, Yryx Y. Luna
Hoang, Tuyet N. A.
Khandani, Salile
Clark, Stephan
Bauer, Aaron
Rolland, Jannick P.
Potma, Eric O.
Hanninen, Adam M.
Optics
Nonlinear optical (NLO) imaging platforms traditionally rely on refractive microscope objectives, which suffer from chromatic aberrations and temporal dispersion of pulsed excitation light. These issues degrade spatial imaging properties and signal brightness. Furthermore, the limited transmission range of refractive materials restricts NLO imaging, especially for applications requiring short- to mid-wave infrared excitation. While reflective microscope objectives offer an achromatic solution and broader transmission range (from visible to mid-infrared), conventional Schwarzschild designs have a central obscuration, which limits transmission throughput, imparts diffraction effects into the images, and, more generally, hinders the adoption of reflective optics in NLO microscopy. We overcome these obscuration-based limitations by developing a novel, reflective microscope objective using freeform mirrors in a non-coaxial geometry. This innovative, obscuration-free design boasts a 0.65 numerical aperture (NA), near diffraction-limited imaging performance, and offers significantly improved transmission with wider fields-of-view. We demonstrate its utility by integrating it into a standard laser-scanning microscope and performing NLO microscopy across a wide range of excitation wavelengths. Our freeform microscope objective outperforms standard reflective designs, providing an achromatic, dispersion-free alternative to refractive lenses for NLO imaging.
title Nonlinear optical microscopy with an obscuration-free, freeform reflective objective
topic Optics
url https://arxiv.org/abs/2507.08185