Hybrid WDM and Optical-CDMA over Multi-Mode Fiber Transmission System based on Optical Vortex

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Zeitschriftentitel:	Journal of Physics: Conference Series
Personen und Körperschaften:	Ghazi, Alaan, Aljunid, S. A., Zulkarnain Syed Idrus, Syed, Endut, R., Rashidi, C. B. M., Ali, N., Al-dawoodi, Aras, Fakhrudeen, Ahmed M., Fareed, Alaa, Sharma, Teena
In:	Journal of Physics: Conference Series, 1755, 2021, 1, S. 012001
Format:	E-Article
Sprache:	Unbestimmt
veröffentlicht:	IOP Publishing
Schlagwörter:	General Physics and Astronomy

author_facet	Ghazi, Alaan Aljunid, S. A. Zulkarnain Syed Idrus, Syed Endut, R. Rashidi, C. B. M. Ali, N. Al-dawoodi, Aras Fakhrudeen, Ahmed M. Fareed, Alaa Sharma, Teena Ghazi, Alaan Aljunid, S. A. Zulkarnain Syed Idrus, Syed Endut, R. Rashidi, C. B. M. Ali, N. Al-dawoodi, Aras Fakhrudeen, Ahmed M. Fareed, Alaa Sharma, Teena
author	Ghazi, Alaan Aljunid, S. A. Zulkarnain Syed Idrus, Syed Endut, R. Rashidi, C. B. M. Ali, N. Al-dawoodi, Aras Fakhrudeen, Ahmed M. Fareed, Alaa Sharma, Teena
spellingShingle	Ghazi, Alaan Aljunid, S. A. Zulkarnain Syed Idrus, Syed Endut, R. Rashidi, C. B. M. Ali, N. Al-dawoodi, Aras Fakhrudeen, Ahmed M. Fareed, Alaa Sharma, Teena Journal of Physics: Conference Series Hybrid WDM and Optical-CDMA over Multi-Mode Fiber Transmission System based on Optical Vortex General Physics and Astronomy
author_sort	ghazi, alaan
spelling	Ghazi, Alaan Aljunid, S. A. Zulkarnain Syed Idrus, Syed Endut, R. Rashidi, C. B. M. Ali, N. Al-dawoodi, Aras Fakhrudeen, Ahmed M. Fareed, Alaa Sharma, Teena 1742-6588 1742-6596 IOP Publishing General Physics and Astronomy http://dx.doi.org/10.1088/1742-6596/1755/1/012001 <jats:title>Abstract</jats:title> <jats:p>The optical vortex has recently attracted scholars to implement it in optical tweezers, microscopy, optical communications, quantum information processing, optical trapping, and laser machining. Optical vortex beam applied classically that can be transferred to the transverse amplitude of a heralded single-photon, and optical vortex possesses a helical wavefront and carries orbital angular momentum. In this study, Optical vortex is applied in optical-CDMA (optical code-division multiple-access) in conjunction with WDM (wavelength division multiplexing). This mechanism aims to increase the capacity and security in optical communication significantly. The implementation of Laguerre-Gaussian (LG) modes with optical vortex based on one dimension zero cross-correlation (ZCC) code shows that mode coupling reduces effectively. Consequently, a positive increase in channel performance and response. Accordingly, the LG modes based on the 1D-ZCC code are investigated and propagated over multi-mode fiber (MMF) based on an optical vortex, which also substantially reduces channel effects. Consequently, all these attributes combined will result in a hybrid WDM-Optical-CDMA with an optical vortex system over MMF.</jats:p> Hybrid WDM and Optical-CDMA over Multi-Mode Fiber Transmission System based on Optical Vortex Journal of Physics: Conference Series
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series	Journal of Physics: Conference Series
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title	Hybrid WDM and Optical-CDMA over Multi-Mode Fiber Transmission System based on Optical Vortex
title_unstemmed	Hybrid WDM and Optical-CDMA over Multi-Mode Fiber Transmission System based on Optical Vortex
title_full	Hybrid WDM and Optical-CDMA over Multi-Mode Fiber Transmission System based on Optical Vortex
title_fullStr	Hybrid WDM and Optical-CDMA over Multi-Mode Fiber Transmission System based on Optical Vortex
title_full_unstemmed	Hybrid WDM and Optical-CDMA over Multi-Mode Fiber Transmission System based on Optical Vortex
title_short	Hybrid WDM and Optical-CDMA over Multi-Mode Fiber Transmission System based on Optical Vortex
title_sort	hybrid wdm and optical-cdma over multi-mode fiber transmission system based on optical vortex
topic	General Physics and Astronomy
url	http://dx.doi.org/10.1088/1742-6596/1755/1/012001
publishDate	2021
physical	012001
description	<jats:title>Abstract</jats:title> <jats:p>The optical vortex has recently attracted scholars to implement it in optical tweezers, microscopy, optical communications, quantum information processing, optical trapping, and laser machining. Optical vortex beam applied classically that can be transferred to the transverse amplitude of a heralded single-photon, and optical vortex possesses a helical wavefront and carries orbital angular momentum. In this study, Optical vortex is applied in optical-CDMA (optical code-division multiple-access) in conjunction with WDM (wavelength division multiplexing). This mechanism aims to increase the capacity and security in optical communication significantly. The implementation of Laguerre-Gaussian (LG) modes with optical vortex based on one dimension zero cross-correlation (ZCC) code shows that mode coupling reduces effectively. Consequently, a positive increase in channel performance and response. Accordingly, the LG modes based on the 1D-ZCC code are investigated and propagated over multi-mode fiber (MMF) based on an optical vortex, which also substantially reduces channel effects. Consequently, all these attributes combined will result in a hybrid WDM-Optical-CDMA with an optical vortex system over MMF.</jats:p>
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author	Ghazi, Alaan, Aljunid, S. A., Zulkarnain Syed Idrus, Syed, Endut, R., Rashidi, C. B. M., Ali, N., Al-dawoodi, Aras, Fakhrudeen, Ahmed M., Fareed, Alaa, Sharma, Teena
author_facet	Ghazi, Alaan, Aljunid, S. A., Zulkarnain Syed Idrus, Syed, Endut, R., Rashidi, C. B. M., Ali, N., Al-dawoodi, Aras, Fakhrudeen, Ahmed M., Fareed, Alaa, Sharma, Teena, Ghazi, Alaan, Aljunid, S. A., Zulkarnain Syed Idrus, Syed, Endut, R., Rashidi, C. B. M., Ali, N., Al-dawoodi, Aras, Fakhrudeen, Ahmed M., Fareed, Alaa, Sharma, Teena
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description	<jats:title>Abstract</jats:title> <jats:p>The optical vortex has recently attracted scholars to implement it in optical tweezers, microscopy, optical communications, quantum information processing, optical trapping, and laser machining. Optical vortex beam applied classically that can be transferred to the transverse amplitude of a heralded single-photon, and optical vortex possesses a helical wavefront and carries orbital angular momentum. In this study, Optical vortex is applied in optical-CDMA (optical code-division multiple-access) in conjunction with WDM (wavelength division multiplexing). This mechanism aims to increase the capacity and security in optical communication significantly. The implementation of Laguerre-Gaussian (LG) modes with optical vortex based on one dimension zero cross-correlation (ZCC) code shows that mode coupling reduces effectively. Consequently, a positive increase in channel performance and response. Accordingly, the LG modes based on the 1D-ZCC code are investigated and propagated over multi-mode fiber (MMF) based on an optical vortex, which also substantially reduces channel effects. Consequently, all these attributes combined will result in a hybrid WDM-Optical-CDMA with an optical vortex system over MMF.</jats:p>
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spelling	Ghazi, Alaan Aljunid, S. A. Zulkarnain Syed Idrus, Syed Endut, R. Rashidi, C. B. M. Ali, N. Al-dawoodi, Aras Fakhrudeen, Ahmed M. Fareed, Alaa Sharma, Teena 1742-6588 1742-6596 IOP Publishing General Physics and Astronomy http://dx.doi.org/10.1088/1742-6596/1755/1/012001 <jats:title>Abstract</jats:title> <jats:p>The optical vortex has recently attracted scholars to implement it in optical tweezers, microscopy, optical communications, quantum information processing, optical trapping, and laser machining. Optical vortex beam applied classically that can be transferred to the transverse amplitude of a heralded single-photon, and optical vortex possesses a helical wavefront and carries orbital angular momentum. In this study, Optical vortex is applied in optical-CDMA (optical code-division multiple-access) in conjunction with WDM (wavelength division multiplexing). This mechanism aims to increase the capacity and security in optical communication significantly. The implementation of Laguerre-Gaussian (LG) modes with optical vortex based on one dimension zero cross-correlation (ZCC) code shows that mode coupling reduces effectively. Consequently, a positive increase in channel performance and response. Accordingly, the LG modes based on the 1D-ZCC code are investigated and propagated over multi-mode fiber (MMF) based on an optical vortex, which also substantially reduces channel effects. Consequently, all these attributes combined will result in a hybrid WDM-Optical-CDMA with an optical vortex system over MMF.</jats:p> Hybrid WDM and Optical-CDMA over Multi-Mode Fiber Transmission System based on Optical Vortex Journal of Physics: Conference Series
spellingShingle	Ghazi, Alaan, Aljunid, S. A., Zulkarnain Syed Idrus, Syed, Endut, R., Rashidi, C. B. M., Ali, N., Al-dawoodi, Aras, Fakhrudeen, Ahmed M., Fareed, Alaa, Sharma, Teena, Journal of Physics: Conference Series, Hybrid WDM and Optical-CDMA over Multi-Mode Fiber Transmission System based on Optical Vortex, General Physics and Astronomy
title	Hybrid WDM and Optical-CDMA over Multi-Mode Fiber Transmission System based on Optical Vortex
title_full	Hybrid WDM and Optical-CDMA over Multi-Mode Fiber Transmission System based on Optical Vortex
title_fullStr	Hybrid WDM and Optical-CDMA over Multi-Mode Fiber Transmission System based on Optical Vortex
title_full_unstemmed	Hybrid WDM and Optical-CDMA over Multi-Mode Fiber Transmission System based on Optical Vortex
title_short	Hybrid WDM and Optical-CDMA over Multi-Mode Fiber Transmission System based on Optical Vortex
title_sort	hybrid wdm and optical-cdma over multi-mode fiber transmission system based on optical vortex
title_unstemmed	Hybrid WDM and Optical-CDMA over Multi-Mode Fiber Transmission System based on Optical Vortex
topic	General Physics and Astronomy
url	http://dx.doi.org/10.1088/1742-6596/1755/1/012001