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Publication
Light propagation in highly birefringent photonic liquid crystal fibers
Journal Contribution - Journal Article
Photonic liquid crystal fibers have already been demonstrated as a promising perspective for creation of new classes of dynamically tunable optical fiber devices. By combining different geometries of photonic crystal fibers with a variety of different liquid crystals it is possible to obtain a new generation of fibers with dynamically tunable properties, e.g., transmission spectra, attenuation or dispersion.
In this paper, tunable birefringence in a commercially available highly birefringent Blazephotonics PM-1550-01 photonic crystal fiber selectively filled with a low birefringence liquid crystal has been experimentally demonstrated. Theses experimental results have been compared with simulations based on the multipole method.
In this paper, tunable birefringence in a commercially available highly birefringent Blazephotonics PM-1550-01 photonic crystal fiber selectively filled with a low birefringence liquid crystal has been experimentally demonstrated. Theses experimental results have been compared with simulations based on the multipole method.
Journal: Opto-Electron. Rev.
ISSN: 1230-3402
Volume: 17
Pages: 150-155
Publication year:2009
Keywords:MICROSTRUCTURED OPTICAL-FIBERS, MODAL BIREFRINGENCE; MULTIPOLE METHOD, BANDGAP FIBERS; PHASE