A Simultaneous Short-Wave and Millimeter-Wave Generation Using a Soliton Pulse Within a Nano-Waveguide

Mitatha, S.; Pornsuwancharoen, N.; Yupapin, P.P.

doi:10.1109/lpt.2009.2020803

Cited by 74 publications

(28 citation statements)

References 11 publications

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“…Fujii et al [21] have shown that a typical propagation length at around sub-millimeter of optical fields can be confined into an approximately 100 × 200 nm 2 cross section waveguide. The other published works [17,22] also confirm the same results.…”

Section: Discussionmentioning

confidence: 99%

Dark Soliton Behaviors Within the Nonlinear Micro and Nanoring Resonators and Applications

Mitatha

2009

PIER

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Abstract-We propose some fascinating results regarding dark soliton pulse propagation within the nonlinear micro and nano waveguides. The system consists of nonlinear micro and nanoring resonators whereby the dark soliton is input into the system and travels within the waveguide. A continuous dark soliton pulse is sliced into smaller pulses by the nonlinear effect which is known as chaos. The nonlinear behaviors such as chaos, bistability and bifurcation are analyzed and discussed. The broad area of applications such as dark-bright soliton conversion and power amplification, binary code generation by the dark-bright soliton pair, dark soliton trapping and millimeter wave generation are proposed and discussed. The biggest advantage is that, where security is the most important consideration, power amplification can be used to perform the long distance link.

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Section: Discussionmentioning

confidence: 99%

Dark Soliton Behaviors Within the Nonlinear Micro and Nanoring Resonators and Applications

Mitatha

2009

PIER

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“…1, the input optical fields (E in ) of the bright and dark soliton pulses are given by an Eqs. (6) and (7) as [14] …”

Section: Theoretical Backgroundmentioning

confidence: 99%

“…Furthermore, the change in potential well is still stable in some conditions, which mean that the dynamic optical tweezers are plausible, therefore, the transportation of atoms/molecules in the optical network via a dark soliton being realized in the near future. In application, the high capacity tweezers can be formed by using the tweezer array (multi-tweezers) [10], which is available for high capacity transportation via optical wireless link [14]. The photon entanglement using a quantum processor is also reviewed.…”

Section: Introductionmentioning

confidence: 99%

Multi-variable quantum tweezers generation using photon entanglement

Pornsuwancharoen

Tasakorn

Julajaturasirarath

et al. 2010

Nano Communication Networks

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“…The other promising application of a dark soliton signal [15] is for the large guard band of two different frequencies which can be achieved by using a dark soliton generation scheme and trapping a dark soliton pulse within a nanoring resonator [1]. Furthermore, the dark soliton pulse shows a more stable 0307-904X/$ -see front matter Ó 2010 Elsevier Inc. All rights reserved.…”

Section: Introductionmentioning

confidence: 99%

Mathematical simulation of light pulse propagating within a microring resonator system and applications

Yupapin

Vanishkorn

2011

Applied Mathematical Modelling

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a b s t r a c tThis paper presents the very fascinating simulation results of light pulse traveling within a ring resonator system that have shown the unexpected results with various applications. The design system consists of a nonlinear microring/nanoring resonator system incorporating an add/drop filter. The proposed fabricated material used is InGaAsP/InP, which can provide the required output behaviors. Three different forms of input light pulses are Gaussian pulse, dark and bright soliton, whereas the suitable simulation parameters are input power, pulse width, ring radii and the material refractive indices. Three different forms of the results have been interpreted, whereas the dominants behaviors are such as Gaussian soliton, multisoliton and tunable dark soliton are described, and the potential applications for new laser sources, new communication bands and dynamic optical tweezers have been discussed.

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A Simultaneous Short-Wave and Millimeter-Wave Generation Using a Soliton Pulse Within a Nano-Waveguide

Cited by 74 publications

References 11 publications

Dark Soliton Behaviors Within the Nonlinear Micro and Nanoring Resonators and Applications

Dark Soliton Behaviors Within the Nonlinear Micro and Nanoring Resonators and Applications

Multi-variable quantum tweezers generation using photon entanglement

Mathematical simulation of light pulse propagating within a microring resonator system and applications

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