Enhancement of Magnetic Fluid Multimode Interference Filter-Based on No-Core Fiber in the Fourth Self-Imaging

Cascade single mode-No Core - single mode fiber structure (SNS) optical filters have garnered a lot of interest as dependable optical devices. These devices' simplicity, compactness, affordability, all-fiber design, low transmission loss, and ability to continuously adjust the laser wavelength...

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Main Authors:	Batool Mahmood, Anwaar A. Al-Dergazly, Haider Al-Juboori
Format:	Article
Language:	English
Published:	Al-Nahrain Journal for Engineering Sciences 2025-07-01
Series:	مجلة النهرين للعلوم الهندسية
Subjects:	Multimode Interferometry (MMI) Ferrofluid Magnetic Field Filter Self-Imaging Optimization Tunability
Online Access:	https://nahje.com/index.php/main/article/view/1351
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author	Batool Mahmood Anwaar A. Al-Dergazly Haider Al-Juboori
author_facet	Batool Mahmood Anwaar A. Al-Dergazly Haider Al-Juboori
author_sort	Batool Mahmood
collection	DOAJ
description	Cascade single mode-No Core - single mode fiber structure (SNS) optical filters have garnered a lot of interest as dependable optical devices. These devices' simplicity, compactness, affordability, all-fiber design, low transmission loss, and ability to continuously adjust the laser wavelength at a particular spectral range contribute to their dependability. The operation's foundation is multimode interference (MMI) and self-image phenomena. SNS filter based on optimized 4th self-imaging condition for different NCF- Specifications was theoretically optimized a tunable filter based on a cascade single mode-no core-single mode (SNS) fiber structure encircled by Ferrofluid was experimentally investigated. The findings indicate that reducing the NCF diameter can enhance the filter's tunability. device has applications in fiber laser technology, spectroscopy, and optical communication.
format	Article
id	doaj-art-65f02a7e9fd84db5accad2ef2a584e4e
institution	DOAJ
issn	2521-9154 2521-9162
language	English
publishDate	2025-07-01
publisher	Al-Nahrain Journal for Engineering Sciences
record_format	Article
series	مجلة النهرين للعلوم الهندسية
spelling	doaj-art-65f02a7e9fd84db5accad2ef2a584e4e2025-08-20T02:48:38ZengAl-Nahrain Journal for Engineering Sciencesمجلة النهرين للعلوم الهندسية2521-91542521-91622025-07-0128210.29194/NJES.28020304Enhancement of Magnetic Fluid Multimode Interference Filter-Based on No-Core Fiber in the Fourth Self-ImagingBatool Mahmood0Anwaar A. Al-Dergazly1Haider Al-Juboori2Dept. of Laser and Optoelectronics Eng., College of Engineering, Al-Nahrain University, Baghdad, Iraq.Dept. of Laser & Optoelectronics Eng., College of Engineering, Al-Nahrain University, Baghdad.South East Technological University, Faculty of Engineering, Department of Electronics Eng. & Com., Carlow, Ireland. Cascade single mode-No Core - single mode fiber structure (SNS) optical filters have garnered a lot of interest as dependable optical devices. These devices' simplicity, compactness, affordability, all-fiber design, low transmission loss, and ability to continuously adjust the laser wavelength at a particular spectral range contribute to their dependability. The operation's foundation is multimode interference (MMI) and self-image phenomena. SNS filter based on optimized 4th self-imaging condition for different NCF- Specifications was theoretically optimized a tunable filter based on a cascade single mode-no core-single mode (SNS) fiber structure encircled by Ferrofluid was experimentally investigated. The findings indicate that reducing the NCF diameter can enhance the filter's tunability. device has applications in fiber laser technology, spectroscopy, and optical communication. https://nahje.com/index.php/main/article/view/1351Multimode Interferometry (MMI)FerrofluidMagnetic Field FilterSelf-ImagingOptimizationTunability
spellingShingle	Batool Mahmood Anwaar A. Al-Dergazly Haider Al-Juboori Enhancement of Magnetic Fluid Multimode Interference Filter-Based on No-Core Fiber in the Fourth Self-Imaging مجلة النهرين للعلوم الهندسية Multimode Interferometry (MMI) Ferrofluid Magnetic Field Filter Self-Imaging Optimization Tunability
title	Enhancement of Magnetic Fluid Multimode Interference Filter-Based on No-Core Fiber in the Fourth Self-Imaging
title_full	Enhancement of Magnetic Fluid Multimode Interference Filter-Based on No-Core Fiber in the Fourth Self-Imaging
title_fullStr	Enhancement of Magnetic Fluid Multimode Interference Filter-Based on No-Core Fiber in the Fourth Self-Imaging
title_full_unstemmed	Enhancement of Magnetic Fluid Multimode Interference Filter-Based on No-Core Fiber in the Fourth Self-Imaging
title_short	Enhancement of Magnetic Fluid Multimode Interference Filter-Based on No-Core Fiber in the Fourth Self-Imaging
title_sort	enhancement of magnetic fluid multimode interference filter based on no core fiber in the fourth self imaging
topic	Multimode Interferometry (MMI) Ferrofluid Magnetic Field Filter Self-Imaging Optimization Tunability
url	https://nahje.com/index.php/main/article/view/1351
work_keys_str_mv	AT batoolmahmood enhancementofmagneticfluidmultimodeinterferencefilterbasedonnocorefiberinthefourthselfimaging AT anwaaraaldergazly enhancementofmagneticfluidmultimodeinterferencefilterbasedonnocorefiberinthefourthselfimaging AT haideraljuboori enhancementofmagneticfluidmultimodeinterferencefilterbasedonnocorefiberinthefourthselfimaging

Enhancement of Magnetic Fluid Multimode Interference Filter-Based on No-Core Fiber in the Fourth Self-Imaging

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