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Ellipse Core Based Photonic Crystal Fiber with High Nonlinearity and Higher Numerical Aperture
A nobly designed photonic crystal fiber has been proposed with ellipse core for higher nonlinearity and higher numerical aperture in this study. This design can sense aqueous analysis over a wavelength range of (1.00 μm to 1.6 μm). The numerical solution has been done using Finite Element Method (FE...
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| creator | Alam, Khandaker Rafsan Alam, Khandaker Rafsan Salimullah, Shah Md Salimullah, Shah Md Shajol, Md. Ashadujjaman Shajol, Md Ashadujjaman Hasan, Md. Jahid Hasan, Md Jahid Hridoy, Emamul Haque Hridoy, Emamul Haque Akter, Nadira Akter, Nadira Siddique, Shamim Siddique, Shamim |
| description | A nobly designed photonic crystal fiber has been proposed with ellipse core for higher nonlinearity and higher numerical aperture in this study. This design can sense aqueous analysis over a wavelength range of (1.00 μm to 1.6 μm). The numerical solution has been done using Finite Element Method (FEM) employing a boundary condition. The proposed model provides a high nonlinearity of 1.10×10s W -1 Km -1 along with the numerical aperture of 0.795 at operating wavelength of 1 μm & 1.55 μm respectively for fundamental single mode operation and the effective area have further discussed. The structure is pragmatic for sensing and laser applications. This model may also find comprehensive operation in spectroscopy and imaging. |
| doi_str_mv | 10.1109/TENSYMP50017.2020.9230764 |
| format | conference_proceeding |
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The proposed model provides a high nonlinearity of 1.10×10s W -1 Km -1 along with the numerical aperture of 0.795 at operating wavelength of 1 μm & 1.55 μm respectively for fundamental single mode operation and the effective area have further discussed. The structure is pragmatic for sensing and laser applications. 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| fulltext | fulltext_linktorsrc |
| identifier | EISSN: 2642-6102 |
| ispartof | 2020 IEEE Region 10 Symposium (TENSYMP), 2020, p.1676-1679 |
| issn | 2642-6102 |
| language | eng |
| recordid | cdi_ieee_primary_9230764 |
| source | IEEE Xplore All Conference Series |
| subjects | Apertures Fiber lasers finite element method Nonlinear optics nonlinearity numerical aperture Optics photonic crystal fiber Photonic crystal fibers Refractive index Silicon |
| title | Ellipse Core Based Photonic Crystal Fiber with High Nonlinearity and Higher Numerical Aperture |
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