Writing Bragg Gratings in Multicore Fibers

Emma Y Lindley¹, Seong-Sik Min², Sergio G Leon-Saval², Nick Cvetojevic³, Jon Lawrence⁴, Simon C Ellis⁵, Joss Bland-Hawthorn²

Affiliations

¹ Sydney Institute for Astronomy, School of Physics, University of Sydney; elindley@physics.usyd.edu.au.
² Sydney Institute for Astronomy, School of Physics, University of Sydney; Institute of Photonics and Optical Science, School of Physics, University of Sydney.
³ Sydney Institute for Astronomy, School of Physics, University of Sydney; Institute of Photonics and Optical Science, School of Physics, University of Sydney; Center for Ultrahigh Bandwidth Devices for Optical Systems, School of Physics, University of Sydney; Australian Astronomical Observatory.
⁴ Australian Astronomical Observatory.
⁵ Sydney Institute for Astronomy, School of Physics, University of Sydney; Australian Astronomical Observatory.

PMID: 27167576
PMCID: PMC4941983
DOI: 10.3791/53326

Writing Bragg Gratings in Multicore Fibers

Emma Y Lindley et al. J Vis Exp. 2016.

. 2016 Apr 20:(110):53326.

doi: 10.3791/53326.

Authors

Emma Y Lindley¹, Seong-Sik Min², Sergio G Leon-Saval², Nick Cvetojevic³, Jon Lawrence⁴, Simon C Ellis⁵, Joss Bland-Hawthorn²

Affiliations

¹ Sydney Institute for Astronomy, School of Physics, University of Sydney; elindley@physics.usyd.edu.au.
² Sydney Institute for Astronomy, School of Physics, University of Sydney; Institute of Photonics and Optical Science, School of Physics, University of Sydney.
³ Sydney Institute for Astronomy, School of Physics, University of Sydney; Institute of Photonics and Optical Science, School of Physics, University of Sydney; Center for Ultrahigh Bandwidth Devices for Optical Systems, School of Physics, University of Sydney; Australian Astronomical Observatory.
⁴ Australian Astronomical Observatory.
⁵ Sydney Institute for Astronomy, School of Physics, University of Sydney; Australian Astronomical Observatory.

PMID: 27167576
PMCID: PMC4941983
DOI: 10.3791/53326

Abstract

Fiber Bragg gratings in multicore fibers can be used as compact and robust filters in astronomical and other research and commercial applications. Strong suppression at a single wavelength requires that all cores have matching transmission profiles. These gratings cannot be inscribed using the same method as for single-core fibers because the curved surface of the cladding acts as a lens, focusing the incoming UV laser beam and causing variations in exposure between cores. Therefore we use an additional optical element to ensure that the beam shape does not change while passing through the cross-section of the multicore fiber. This consists of a glass capillary tube which has been polished flat on one side, which is then placed over the section of the fiber to be inscribed. The laser beam enters the fiber through the flat surface of the capillary tube and hence maintains its original dimensions. This paper demonstrates the improvements in core-to-core uniformity for a 7-core fiber using this method. The technique can be generalized to larger multicore fibers.

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References

1. Othonos A. Fiber Bragg gratings. Rev. Sci. Instrum. 1997;68(12):4309–4341.
1. Bland-Hawthorn J, Englund M, Edvell G. New approach to atmospheric OH suppression using an aperiodic fiber Bragg grating. Opt. Express. 2004;12(24):5902–5909. - PubMed
1. Jovanovic N, Guyon O, Martinache F, Schwab C, Cvetojevic N. How to inject light efficiently into single-mode fibers. Proc. SPIE. 2014;9147:91477P.
1. Bland-Hawthorn J, et al. A complex multi-notch astronomical filter to suppress the bright infrared sky. Nat. Comm. 2011;2:581. - PubMed
1. Leon-Saval SG, Argyros A, Bland-Hawthorn J. Photonic lanterns. Opt. Express. 2010;18(8):8430–8439. - PubMed

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Writing Bragg Gratings in Multicore Fibers

Affiliations

Writing Bragg Gratings in Multicore Fibers

Authors

Affiliations

Abstract

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References

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MeSH terms

LinkOut - more resources

Full Text Sources

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