New Communication Bands Generated by Using a Soliton Pulse within a Resonator System

Yupapin, Preecha P.; Jalil, M. A.; Amiri, Iraj Sadegh; Naim, I.; Ali, Jalil

doi:10.4236/cs.2010.12012

Cited by 23 publications

(15 citation statements)

References 8 publications

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“…This means that we can employ the dark soliton penalty because of the low level of the peak power to be the benefit, where the predicting idea is that a dark soliton can perform the communication transmission carrier where the recovery can be retrieved by the darkbright soliton conversion [5]. A soliton pulse can be localized among a waveguide consists of micro and nanoring resonator, hence the soliton pulse can be stored within the nano-waveguide [6]. We have shown that the dark soliton can be input and chopped to the noisy signals for security use within the nonlinear ring resonator system [7].…”

Section: Introductionmentioning

confidence: 99%

Dark-Bright Solitons Conversion System for Secured and Long Distance Optical Communication

Amiri¹

2012

IOSRJAP

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Section: Introductionmentioning

confidence: 99%

Dark-Bright Solitons Conversion System for Secured and Long Distance Optical Communication

Amiri¹

2012

IOSRJAP

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“…The methodology of this study can be performed by configuration and using of an interferometer add/drop filter system connecting to series of microring resonators [45]. Variation of the system's parameters affect the output results in which tuned and amplified optical tweezers can be generated.…”

Section: Theoretical Modeling and Research Methodologymentioning

confidence: 99%

A Study of Dynamic Optical Tweezers Generation for Communication Networks

Amiri¹,

Shahidinejad²,

Nikoukar³

et al. 2012

IJAET

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We propose a novel system of the dynamic optical tweezers generated by a dark soliton in the fiber optic loop. A dark soliton known as an optical tweezer is amplified and tuned within the microring resonator (MRR) system. The required tunable tweezers with different widths and powers can be controlled. The analysis of dark-bright soliton conversion using a dark soliton pulse propagating within a MRR is analyzed. The control dark soliton is input into the system via the add port of the add/drop filter. The dynamic behavior of the dark-bright soliton conversion is observed. The required stable signal is obtained via a drop and throughput ports of the add/dropfilter with some suitable parameters. In application, generation of optical tweezers and transportation can be realized by using the proposed system, where the communication network is performed.

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“…To generate a spectrum of light over a broad range [3], an optical soliton pulse is recommended as a powerful laser pulse that can be used to generate chaotic filter characteristics when propagating within nonlinear MRRs [4][5][6][7]. Using this technique, the capacity of the transmission data [8] can be secured and increased when the chaotic packet switching is employed [9]. This system is used to trap optical solitons in order to generate entangled photon pair required for CVQKD [10][11][12][13].…”

Section: Introductionmentioning

confidence: 99%

Long Distance Communication Using Localized Optical Soliton via Entangled Photon

Amiri¹

2013

IOSR-JAP

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New Communication Bands Generated by Using a Soliton Pulse within a Resonator System

Cited by 23 publications

References 8 publications

Dark-Bright Solitons Conversion System for Secured and Long Distance Optical Communication

Dark-Bright Solitons Conversion System for Secured and Long Distance Optical Communication

A Study of Dynamic Optical Tweezers Generation for Communication Networks

Long Distance Communication Using Localized Optical Soliton via Entangled Photon

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