Jonathan Nylk scite author profile

Light-sheet microscopy facilitates rapid, high-contrast, volumetric imaging with minimal sample exposure. However, the rapid divergence of a traditional Gaussian light sheet restricts the field of view (FOV) that provides innate subcellular resolution. We show that the Airy beam innately yields high contrast and resolution up to a tenfold larger FOV. In contrast to the Bessel beam, which also provides an increased FOV, the Airy beam's characteristic asymmetric excitation pattern results in all fluorescence contributing positively to the contrast, enabling a step change for light-sheet microscopy.

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A compact Airy beam light sheet microscope with a tilted cylindrical lens

Yang¹,

Prokopas²,

Nylk³

et al. 2014

Biomed. Opt. Express

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Light-sheet imaging is rapidly gaining importance for imaging intact biological specimens. Many of the latest innovations rely on the propagation-invariant Bessel or Airy beams to form an extended light sheet to provide high resolution across a large field of view. Shaping light to realize propagation-invariant beams often relies on complex programming of spatial light modulators or specialized, custom made, optical elements. Here we present a straightforward and low-cost modification to the traditional light-sheet setup, based on the open-access light-sheet microscope OpenSPIM, to achieve Airy light-sheet illumination. This brings wide field single-photon light-sheet imaging to a broader range of endusers. Fluorescent microspheres embedded in agarose and a zebrafish larva were imaged to demonstrate how such a microscope can have a minimal footprint and cost without compromising on imaging quality.

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Light-sheet microscopy with attenuation-compensated propagation-invariant beams

et al. 2018

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Enhancement of image quality and imaging depth with Airy light-sheet microscopy in cleared and non-cleared neural tissue

Nylk¹,

McCluskey²,

Aggarwal³

et al. 2016

Biomed. Opt. Express

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We have investigated the effect of Airy illumination on the image quality and depth penetration of digitally scanned light-sheet microscopy in turbid neural tissue. We used Fourier analysis of images acquired using Gaussian and Airy light-sheets to assess their respective image quality versus penetration into the tissue. We observed a three-fold average improvement in image quality at 50 μm depth with the Airy light-sheet. We also used optical clearing to tune the scattering properties of the tissue and found that the improvement when using an Airy light-sheet is greater in the presence of stronger sample-induced aberrations. Finally, we used homogeneous resolution probes in these tissues to quantify absolute depth penetration in cleared samples with each beam type. The Airy light-sheet method extended depth penetration by 30% compared to a Gaussian light-sheet.

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Jonathan Nylk

Light-sheet microscopy using an Airy beam

A compact Airy beam light sheet microscope with a tilted cylindrical lens

Light-sheet microscopy with attenuation-compensated propagation-invariant beams

Enhancement of image quality and imaging depth with Airy light-sheet microscopy in cleared and non-cleared neural tissue

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