Recording Policryps structures in photonic crystal fibers

Authors

  • David Poudereux Technical University of Madrid
  • Manuel Cano-García Technical University of Madrid
  • Domenico Alj University of Calabria
  • Roberto Caputo University of Calabria
  • Cesare Umeton University of Calabria
  • Morten Andreas Geday Technical University of Madrid
  • José Manuel Otón Technical University of Madrid http://orcid.org/0000-0001-8070-9180
  • Xabier Quintana Technical University of Madrid

DOI:

https://doi.org/10.4302/plp.v9i1.700

Abstract

Policryps structures of photo-curable adhesive NOA61 and nematic liquid crystal mixture E7 have been created inside selected microchannels of photonic crystal fibers (PCF). The PCF was selectively infiltrated with the photopolymer-liquid crystal mixture for the writing of a holographic tunable grating inside specific holes of the photonic fiber. A 2um pitch grating was successfully recorded in the PCF inner holes with and without collapsing the fiber cladding. The liquid crystal is properly aligned in both cases.

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Author Biographies

David Poudereux, Technical University of Madrid

CEMDATIC & Dept Photonics and Bioengineering

Postdoc researcher

Manuel Cano-García, Technical University of Madrid

CEMDATIC & Dept Photonics and Bioengineering

Graduate student

Domenico Alj, University of Calabria

NANOTEC & Dept Physics

Postdoc researcher

Roberto Caputo, University of Calabria

NANOTEC & Dept Physics

Researcher

Cesare Umeton, University of Calabria

NANOTEC & Dept Physics

Full professor

Morten Andreas Geday, Technical University of Madrid

CEMDATIC & Dept Photonics and Bioengineering

Associate professor

José Manuel Otón, Technical University of Madrid

CEMDATIC & Dept Photonics and Bioengineering

Full professor

Xabier Quintana, Technical University of Madrid

CEMDATIC & Dept Photonics and Bioengineering

Associate professor

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Published

2017-03-31

How to Cite

[1]
D. Poudereux, “Recording Policryps structures in photonic crystal fibers”, Photonics Lett. Pol., vol. 9, no. 1, pp. pp. 5–7, Mar. 2017.

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Articles