Highly compact and cost-effective 2-beam super-resolution structured illumination microscope based on all-fiber optic components

Pospisil, Jakub; Wiebusch, Gerd; Fliegel, Karel; Klima, Milos; Huser, Thomas

Highly compact and cost-effective 2-beam super-resolution structured illumination microscope based on all-fiber optic components

Pospisil J, Wiebusch G, Fliegel K, Klima M, Huser T (2021)
Optics Express 29(8): 11833-11844.

Zeitschriftenaufsatz | Veröffentlicht | Englisch

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OSA_Huser_oe-29-8-11833.pdf 3.59 MB

DOI

https://doi.org/10.1364/OE.420592

URN

urn:nbn:de:0070-pub-29551201

Autor*in

Pospisil, Jakub^UniBi; Wiebusch, Gerd^UniBi; Fliegel, Karel; Klima, Milos; Huser, Thomas^UniBi

Einrichtung

Fakultät für Physik > AG Biomolekulare Photonik

Abstract / Bemerkung

Current super-resolution structured illumination microscopes (SR-SIM) utilize relatively expensive electro-optic components and free-space optics, resulting in large setups. Moreover, high power laser sources are required to compensate for the losses associated with generating the illumination pattern by diffractive optics. Here, we present a highly compact and flexible 2D SR-SIM microscope based on all-fiber optic components (fiberSIM). Fiber-splitters deliver the laser light to the sample resulting in the interference illumination pattern. A microelectromechanical systems (MEMS) based fiber switch performs rapid pattern rotation. The pattern phase shift is achieved by the spatial displacement of one arm of the fiber interferometer using a piezoelectric crystal. Compared with existing methods, fiberSIM is highly compact and significantly reduces the SR-SIM component cost while achieving comparable results, thus providing a route to making SR-SIM technology accessible to even more laboratories in the life sciences. (C) 2021 Optical Society of America under the terms of the OSA Open Access Publishing Agreement

Erscheinungsjahr

2021

Zeitschriftentitel

Optics Express

Band

Ausgabe

Seite(n)

11833-11844

eISSN

1094-4087

Page URI

https://pub.uni-bielefeld.de/record/2955120

Zitieren

Pospisil J, Wiebusch G, Fliegel K, Klima M, Huser T. Highly compact and cost-effective 2-beam super-resolution structured illumination microscope based on all-fiber optic components. Optics Express. 2021;29(8):11833-11844.

Pospisil, J., Wiebusch, G., Fliegel, K., Klima, M., & Huser, T. (2021). Highly compact and cost-effective 2-beam super-resolution structured illumination microscope based on all-fiber optic components. Optics Express, 29(8), 11833-11844. https://doi.org/10.1364/OE.420592

Pospisil, Jakub, Wiebusch, Gerd, Fliegel, Karel, Klima, Milos, and Huser, Thomas. 2021. “Highly compact and cost-effective 2-beam super-resolution structured illumination microscope based on all-fiber optic components”. Optics Express 29 (8): 11833-11844.

Pospisil, J., Wiebusch, G., Fliegel, K., Klima, M., and Huser, T. (2021). Highly compact and cost-effective 2-beam super-resolution structured illumination microscope based on all-fiber optic components. Optics Express 29, 11833-11844.

Pospisil, J., et al., 2021. Highly compact and cost-effective 2-beam super-resolution structured illumination microscope based on all-fiber optic components. Optics Express, 29(8), p 11833-11844.

J. Pospisil, et al., “Highly compact and cost-effective 2-beam super-resolution structured illumination microscope based on all-fiber optic components”, Optics Express, vol. 29, 2021, pp. 11833-11844.

Pospisil, J., Wiebusch, G., Fliegel, K., Klima, M., Huser, T.: Highly compact and cost-effective 2-beam super-resolution structured illumination microscope based on all-fiber optic components. Optics Express. 29, 11833-11844 (2021).

Pospisil, Jakub, Wiebusch, Gerd, Fliegel, Karel, Klima, Milos, and Huser, Thomas. “Highly compact and cost-effective 2-beam super-resolution structured illumination microscope based on all-fiber optic components”. Optics Express 29.8 (2021): 11833-11844.

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