Multichannel and Multistate All-Optical Switch Using Quantum-Dot and Sample-Grating Semiconductor Optical Amplifier

Multichannel and Multistate All-Optical Switch Using Quantum-Dot and Sample-Grating Semiconductor Optical Amplifier

A novel type of multichannel and multistate all-optical switch using a single sample-grating quantum-dot-distributed feedback semiconductor optical amplifier has been proposed and theoretically demonstrated. The multichannel device, which operates below threshold, utilizes cross-gain modulation and...

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Bibliographic Details
Main Author: Omar Qasaimeh
Format: Article
Language:English
Published: MDPI AG 2018-08-01
Series:Electronics
Subjects:
quantum dot
sample grating
cross-gain modulation
bistability
distributed Bragg
semiconductor optical amplifier
Online Access:http://www.mdpi.com/2079-9292/7/9/166
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spelling doaj-99fcf4d8bb62483d90307f048b31e5982020-11-24T21:27:21ZengMDPI AGElectronics2079-92922018-08-017916610.3390/electronics7090166electronics7090166Multichannel and Multistate All-Optical Switch Using Quantum-Dot and Sample-Grating Semiconductor Optical AmplifierOmar Qasaimeh0Department of Electrical Engineering, Jordan University of Science and Technology, P.O. Box 3030, Irbid 22110, JordanA novel type of multichannel and multistate all-optical switch using a single sample-grating quantum-dot-distributed feedback semiconductor optical amplifier has been proposed and theoretically demonstrated. The multichannel device, which operates below threshold, utilizes cross-gain modulation and the sample-grating technique. The multichannel outputs are strongly coupled and are utilized to get multistability at several wavelength channels. Three logic states can be obtained when the inputs are properly detuned to the sample-grating comb modes. The three logic states, which exhibit reasonable gain, are separated by wide hysteresis width and can be tuned to a different wavelength channels. The device characteristics are very useful for building all-optical logic gates, flip-flops, and decision circuits.http://www.mdpi.com/2079-9292/7/9/166quantum dotsample gratingcross-gain modulationbistabilitydistributed Braggsemiconductor optical amplifier
collection DOAJ
language English
format Article
sources DOAJ
author Omar Qasaimeh
spellingShingle Omar Qasaimeh
Multichannel and Multistate All-Optical Switch Using Quantum-Dot and Sample-Grating Semiconductor Optical Amplifier
Electronics
quantum dot
sample grating
cross-gain modulation
bistability
distributed Bragg
semiconductor optical amplifier
author_facet Omar Qasaimeh
author_sort Omar Qasaimeh
title Multichannel and Multistate All-Optical Switch Using Quantum-Dot and Sample-Grating Semiconductor Optical Amplifier
title_short Multichannel and Multistate All-Optical Switch Using Quantum-Dot and Sample-Grating Semiconductor Optical Amplifier
title_full Multichannel and Multistate All-Optical Switch Using Quantum-Dot and Sample-Grating Semiconductor Optical Amplifier
title_fullStr Multichannel and Multistate All-Optical Switch Using Quantum-Dot and Sample-Grating Semiconductor Optical Amplifier
title_full_unstemmed Multichannel and Multistate All-Optical Switch Using Quantum-Dot and Sample-Grating Semiconductor Optical Amplifier
title_sort multichannel and multistate all-optical switch using quantum-dot and sample-grating semiconductor optical amplifier
publisher MDPI AG
series Electronics
issn 2079-9292
publishDate 2018-08-01
description A novel type of multichannel and multistate all-optical switch using a single sample-grating quantum-dot-distributed feedback semiconductor optical amplifier has been proposed and theoretically demonstrated. The multichannel device, which operates below threshold, utilizes cross-gain modulation and the sample-grating technique. The multichannel outputs are strongly coupled and are utilized to get multistability at several wavelength channels. Three logic states can be obtained when the inputs are properly detuned to the sample-grating comb modes. The three logic states, which exhibit reasonable gain, are separated by wide hysteresis width and can be tuned to a different wavelength channels. The device characteristics are very useful for building all-optical logic gates, flip-flops, and decision circuits.
topic quantum dot
sample grating
cross-gain modulation
bistability
distributed Bragg
semiconductor optical amplifier
url http://www.mdpi.com/2079-9292/7/9/166
work_keys_str_mv AT omarqasaimeh multichannelandmultistateallopticalswitchusingquantumdotandsamplegratingsemiconductoropticalamplifier
_version_ 1725975152469999616

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