Liquid crystal based optical switch
Photonic Crystal Fibers (PCFs) are characterized by an arrangement of micron-sized air holes running down the length of the fiber. The microstructure allows realization of the so-called index-guiding PCFs, which guide light in a high-index core using a principle similar to total internal reflecti...
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sg-ntu-dr.10356-166492023-03-03T15:37:38Z Liquid crystal based optical switch Seto Benjamin. Chan Chi Chiu School of Chemical and Biomedical Engineering Network Technology Research Centre DRNTU::Engineering::Chemical engineering::Industrial photochemistry Photonic Crystal Fibers (PCFs) are characterized by an arrangement of micron-sized air holes running down the length of the fiber. The microstructure allows realization of the so-called index-guiding PCFs, which guide light in a high-index core using a principle similar to total internal reflection (TIR), and the Photonic Band Gap (PBG) guiding PCFs which can guide light in a low-index core. The unique properties of band gap guiding PCFs has opened the possibility of combining the classical fiber material, silica, with new materials having higher refractive index than that of silica, and create guided wave structures for confinement of light in silica In the thesis, PCF will be infiltrated with E7 nematic liquid crystals to create a Photonic Liquid Crystal Fiber (PLCF) and analyzed for tunable optical properties for manipulation of guided light. The first part of the thesis deals with the infiltration of the liquid crystal into the photonic crystal fibers. Experimental results based on the propagation properties after the infiltration are discussed. The second part of the Thesis deals with the development of a tunable light switch based on the PLCF. Experimental results on the propagation properties based on the influence of an external electric field will be discussed. Bachelor of Engineering (Chemical and Biomolecular Engineering) 2009-05-27T08:44:03Z 2009-05-27T08:44:03Z 2009 2009 Final Year Project (FYP) http://hdl.handle.net/10356/16649 en Nanyang Technological University 85 p. application/pdf |
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DRNTU::Engineering::Chemical engineering::Industrial photochemistry Seto Benjamin. Liquid crystal based optical switch |
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Photonic Crystal Fibers (PCFs) are characterized by an arrangement of micron-sized air
holes running down the length of the fiber. The microstructure allows realization of the
so-called index-guiding PCFs, which guide light in a high-index core using a principle
similar to total internal reflection (TIR), and the Photonic Band Gap (PBG) guiding PCFs
which can guide light in a low-index core. The unique properties of band gap guiding
PCFs has opened the possibility of combining the classical fiber material, silica, with new
materials having higher refractive index than that of silica, and create guided wave
structures for confinement of light in silica
In the thesis, PCF will be infiltrated with E7 nematic liquid crystals to create a Photonic
Liquid Crystal Fiber (PLCF) and analyzed for tunable optical properties for manipulation
of guided light.
The first part of the thesis deals with the infiltration of the liquid crystal into the photonic
crystal fibers. Experimental results based on the propagation properties after the
infiltration are discussed. The second part of the Thesis deals with the development of a
tunable light switch based on the PLCF. Experimental results on the propagation
properties based on the influence of an external electric field will be discussed. |
author2 |
Chan Chi Chiu |
author_facet |
Chan Chi Chiu Seto Benjamin. |
format |
Final Year Project |
author |
Seto Benjamin. |
author_sort |
Seto Benjamin. |
title |
Liquid crystal based optical switch |
title_short |
Liquid crystal based optical switch |
title_full |
Liquid crystal based optical switch |
title_fullStr |
Liquid crystal based optical switch |
title_full_unstemmed |
Liquid crystal based optical switch |
title_sort |
liquid crystal based optical switch |
publishDate |
2009 |
url |
http://hdl.handle.net/10356/16649 |
_version_ |
1759856332796592128 |