DocumentCode
1375270
Title
Novel Sealing Technique for Practical Liquid-Core Photonic Crystal Fibers
Author
Gerosa, Rodrigo M. ; Bozolan, Alexandre ; De Matos, Christiano J S ; Romero, Murilo A. ; Cordeiro, Cristiano M B
Author_Institution
Grupo de Fotonica, Univ. Presbiteriana Mackenzie, Sao Paulo, Brazil
Volume
24
Issue
3
fYear
2012
Firstpage
191
Lastpage
193
Abstract
In this letter, we describe a simple and effective technique to prevent evaporation in liquid-core photonic crystal fibers (PCFs). The technique consists of using a micropipette to deploy a micro-droplet of an ultraviolet curable polymer adhesive in both core inputs. After it is cured, the adhesive creates sealing polymer plugs with quite satisfactory insertion loss (overall optical transmission of about 15%). Processed fibers remained liquid-filled for at least six weeks. From a practical point of view, we conducted a supercontinuum generation experiment in a water-core PCF to demonstrate a 120-minute spectral width stability and the ability to withstand at least 3-mW average power at the sealed fiber input. Similar experiments carried out with nonsealed fibers produced supercontinuum spectra lasting no longer than 10 minutes, with average powers kept below 0.5 mW to avoid thermally induced evaporation.
Keywords
drops; holey fibres; photonic crystals; polymers; seals (stoppers); supercontinuum generation; micro droplet; micropipette; practical liquid core photonic crystal fibers; sealing polymer; sealing technique; spectral width stability; supercontinuum generation; thermally induced evaporation; time 120 min; ultraviolet curable polymer adhesive; water core PCF; Nonlinear optics; Optical fiber devices; Optical fibers; Photonic crystal fibers; Plugs; Polymers; Optofluidics; photonic crystal fiber (PCF); supercontinuum generation;
fLanguage
English
Journal_Title
Photonics Technology Letters, IEEE
Publisher
ieee
ISSN
1041-1135
Type
jour
DOI
10.1109/LPT.2011.2175915
Filename
6080702
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