Design to Analyze Low Loss Zero Dispersion in Water Filled Silica Photonic Crystal Fiber

Heema Kumari Tejiyot, Sunil Sharma , Aabhas Mathur, Dr. Hemant Dhabhai: Design to Analyze Low Loss Zero Dispersion in Water Filled Silica Photonic Crystal Fiber. In: International Transaction on Engineering and Science (ITES), 1 (1), pp. 30-35, 2018.

Abstract

This work proposes the design and optimization of Refractive index and minimizing the loss for liquid filled silica photonic crystal fiber. Number of research papers has been investigated to get the best result with the proposed design. The core of the proposed Silica PCF structure is designed with liquid filled air holes. Numerical analysis is being carried out by using the Finite Element Effective Index Method (FVEIM) to calculate the modal dispersion, confinement loss and nonlinear coefficient of the proposed Silica PCF structure. Transparent boundary condition (TBC) is proposed here for the calculation of Refractive index. The design is proposed with three layers parallelopid hexagonal with water as a liquid filled having core diameter 1 micrometer, pitch value 2 micrometer. The calculated dispersion is near about to zero while the refractive index calculated is 1.457 which is quite similar to silica. Finally, it is concluded that the work presented in this paper shows the low loss and zero dispersion for liquid filled silica photonic crystal fiber.

BibTeX (Download)

@article{ITG_460,
title = {Design to Analyze Low Loss Zero Dispersion in Water Filled Silica Photonic Crystal Fiber},
author = {Heema Kumari Tejiyot, Sunil Sharma , Aabhas Mathur and Dr. Hemant Dhabhai},
url = {https://www.itgjournal.com/wp-content/uploads/2019/03/paper-for-journal-ITG_460new.pdf},
year  = {2018},
date = {2018-12-25},
journal = {International Transaction on Engineering and Science (ITES)},
volume = {1},
number = {1},
pages = {30-35},
abstract = {This work proposes the design and optimization of Refractive index and minimizing the loss for liquid filled silica photonic crystal fiber. Number of research papers has been investigated to get the best result with the proposed design. The core of the proposed Silica PCF structure is designed with liquid filled air holes. Numerical analysis is being carried out by using the Finite Element Effective Index Method (FVEIM) to calculate the modal dispersion, confinement loss and nonlinear coefficient of the proposed Silica PCF structure. Transparent boundary condition (TBC) is proposed here for the calculation of Refractive index. The design is proposed with three layers parallelopid hexagonal with water as a liquid filled having core diameter 1 micrometer, pitch value 2 micrometer. The calculated dispersion is near about to zero while the refractive index calculated is 1.457 which is quite similar to silica. Finally, it is concluded that the work presented in this paper shows the low loss and zero dispersion for liquid filled silica photonic crystal fiber.},
keywords = {ITES, Volume 1 Issue 1},
pubstate = {published},
tppubtype = {article}
}

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