Flattened zero dispersion Photonic crystal fibers with embedded nano holes and ultra low confinement loss for supercontinuum generation

Flattened zero dispersion Photonic crystal fibers with embedded nano holes and ultra low confinement loss for supercontinuum generation

In this paper unique photonic crystal fiber (PCF) structure with nanoholes embedded have been studied. Embedded nanoholes have been filled with different materials of alcoholic groups like butanol, ethanol, methanol and propanol. Investigations of these structure shows flattened zero dispersion in v...

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Bibliographic Details
Main Authors: K. F. Fiaboe, P. Kumar, J. S. Roy
Format: Article
Language:English
Published: Advanced Electromagnetics 2019-09-01
Series:Advanced Electromagnetics
Subjects:
photonic crystal fibers
Dispersion
supercontinuum generation
confinement loss
Online Access:https://aemjournal.org/index.php/AEM/article/view/1076
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spelling doaj-ffae367bfd2645e7bd688f6d6ebd8aa52020-11-24T21:10:44ZengAdvanced ElectromagneticsAdvanced Electromagnetics2119-02752019-09-018471510.7716/aem.v8i4.10761076Flattened zero dispersion Photonic crystal fibers with embedded nano holes and ultra low confinement loss for supercontinuum generationK. F. Fiaboe0P. Kumar1J. S. Roy2Kalinga Institute of Information TechnologyKalinga Institute of Information TechnologyKalinga Institute of Information TechnologyIn this paper unique photonic crystal fiber (PCF) structure with nanoholes embedded have been studied. Embedded nanoholes have been filled with different materials of alcoholic groups like butanol, ethanol, methanol and propanol. Investigations of these structure shows flattened zero dispersion in visible range to far infrared regions. Simulated PCF structure reports ultra-low confinement loss of the order of 10-8 dB/km. Designed PCF promises to give large nonlinear coefficient of 3000 W-1Km-1 at 1335nm wavelengths. Numerical simulation of the fiber for the generation of supercontinuum generation (SCG) has been performed. Low power pump pulses of 50fs duration have been used. With a fiber of length of 15cm and pulses of 1kW, 2kW, 5kW and 10kW peak power, supercontinuum broadening of about 607nm, 908nm, 1987nm and 2405nm respectively.https://aemjournal.org/index.php/AEM/article/view/1076photonic crystal fibersDispersionsupercontinuum generationconfinement loss
collection DOAJ
language English
format Article
sources DOAJ
author K. F. Fiaboe
P. Kumar
J. S. Roy
spellingShingle K. F. Fiaboe
P. Kumar
J. S. Roy
Flattened zero dispersion Photonic crystal fibers with embedded nano holes and ultra low confinement loss for supercontinuum generation
Advanced Electromagnetics
photonic crystal fibers
Dispersion
supercontinuum generation
confinement loss
author_facet K. F. Fiaboe
P. Kumar
J. S. Roy
author_sort K. F. Fiaboe
title Flattened zero dispersion Photonic crystal fibers with embedded nano holes and ultra low confinement loss for supercontinuum generation
title_short Flattened zero dispersion Photonic crystal fibers with embedded nano holes and ultra low confinement loss for supercontinuum generation
title_full Flattened zero dispersion Photonic crystal fibers with embedded nano holes and ultra low confinement loss for supercontinuum generation
title_fullStr Flattened zero dispersion Photonic crystal fibers with embedded nano holes and ultra low confinement loss for supercontinuum generation
title_full_unstemmed Flattened zero dispersion Photonic crystal fibers with embedded nano holes and ultra low confinement loss for supercontinuum generation
title_sort flattened zero dispersion photonic crystal fibers with embedded nano holes and ultra low confinement loss for supercontinuum generation
publisher Advanced Electromagnetics
series Advanced Electromagnetics
issn 2119-0275
publishDate 2019-09-01
description In this paper unique photonic crystal fiber (PCF) structure with nanoholes embedded have been studied. Embedded nanoholes have been filled with different materials of alcoholic groups like butanol, ethanol, methanol and propanol. Investigations of these structure shows flattened zero dispersion in visible range to far infrared regions. Simulated PCF structure reports ultra-low confinement loss of the order of 10-8 dB/km. Designed PCF promises to give large nonlinear coefficient of 3000 W-1Km-1 at 1335nm wavelengths. Numerical simulation of the fiber for the generation of supercontinuum generation (SCG) has been performed. Low power pump pulses of 50fs duration have been used. With a fiber of length of 15cm and pulses of 1kW, 2kW, 5kW and 10kW peak power, supercontinuum broadening of about 607nm, 908nm, 1987nm and 2405nm respectively.
topic photonic crystal fibers
Dispersion
supercontinuum generation
confinement loss
url https://aemjournal.org/index.php/AEM/article/view/1076
work_keys_str_mv AT kffiaboe flattenedzerodispersionphotoniccrystalfiberswithembeddednanoholesandultralowconfinementlossforsupercontinuumgeneration
AT pkumar flattenedzerodispersionphotoniccrystalfiberswithembeddednanoholesandultralowconfinementlossforsupercontinuumgeneration
AT jsroy flattenedzerodispersionphotoniccrystalfiberswithembeddednanoholesandultralowconfinementlossforsupercontinuumgeneration
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