Dynamic Potential Well Generation and Control Using Double Resonators Incorporating an Add/Drop Filter

Piyatamrong, Bunjong; Kulsirirat, Kathawut; Techitdheera, Wicharn; Mitatha, S.; Yupapin, P.P.

doi:10.1142/s0217984910025383

Cited by 41 publications

(16 citation statements)

References 15 publications

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“…The proposed system uses trapping signals in the form of dark solitons that can be converted to bright solitons when passed through an add-drop filter with specific parameters, and the gold nanoparticles are safely retrieved by the receiver at drop port of the system ( Figure 5). 16,32 In the proposed system, we used the spherical gold nanoparticle to conjugate molecular therapy which has excellent enhanced Raman scattering surface properties 37 and are known to be nontoxic and nonimmunogenic. 38 The gold particles can be trapped and transported via the suitable waveguide to the required targets or destinations, which can be useful for the applications such as atom bottom-up, drug delivery, cosmetics, and nanoelectronic devices.…”

Section: Gold Nanoparticlesmentioning

confidence: 99%

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Gold nanoparticle trapping and delivery for therapeutic applications

Aziz¹,

Suwanpayak²,

Jalil³

et al. 2011

IJN

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Abstract:A new optical trapping design to transport gold nanoparticles using a PANDA ring resonator system is proposed. Intense optical fields in the form of dark solitons controlled by Gaussian pulses are used to trap and transport nanoscopic volumes of matter to the desired destination via an optical waveguide. Theoretically, the gradient and scattering forces are responsible for this trapping phenomenon, where in practice such systems can be fabricated and a thin-film device formed on the specific artificial medical materials, for instance, an artificial bone. The dynamic behavior of the tweezers can be tuned by controlling the optical pulse input power and parameters of the ring resonator system. Different trap sizes can be generated to trap different gold nanoparticles sizes, which is useful for gold nanoparticle therapy. In this paper, we have shown the utility of gold nanoparticle trapping and delivery for therapy, which may be useful for cosmetic therapy and related applications.

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Section: Gold Nanoparticlesmentioning

confidence: 99%

“…16,17 The carrier signal works in the same way as the optical tweezers interact with microparticles in a noninvasive manner. The phenomenon of static tweezers has been well analyzed, and the use of dynamic tweezers is an emerging field due to their wide applications.…”

Section: Introductionmentioning

confidence: 99%

Gold nanoparticle trapping and delivery for therapeutic applications

Aziz¹,

Suwanpayak²,

Jalil³

et al. 2011

IJN

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“…Amyloid and tau proteins are both implicated in memory impairment, mild cognitive impairment (MCI), and early AD, however their interaction is unknown. 42 In operation, the optical tweezer can be trapped, transported, and stored within the PANDA ring resonator, 30 incorporating a wavelength router in the same drug-delivery network system. 7 We used the theory of optical trapping and transportation technique [43][44][45] to trap kinesins for the manipulation of synaptic vesicles in critical areas of the neuronal network; processing and removing the amyloid plaques to prevent the accumulation of them between nerve cells in the brain.…”

Section: Alzheimer's Diagnosis Using Molecular Networkmentioning

confidence: 99%

“…Moreover, the optical methods that have been developed to date encompass a broad array of strategies, including photorelease of caged neurotransmitters, engineered light-gated receptors and channels, naturally light-sensitive ion channels and pumps, 28 and artificial neural networks. 29 Recently, the use of optical trapping tool microscopic volume transportation within an add/drop multiplexer has been reported both in theory 30 and experimentally. 31 Here the transporter is known as an optical tweezer.…”

Section: Introductionmentioning

confidence: 99%

Proposal for Alzheimer’s diagnosis using molecular buffer and bus network

Mitatha¹,

Moongfangklang²,

Ma³

et al. 2011

IJN

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A novel design of an optical trapping tool for tangle protein (tau tangles, β-amyloid plaques) and molecular motor storage and delivery using a PANDA ring resonator is proposed. The optical vortices can be generated and controlled to form the trapping tools in the same way as the optical tweezers. In theory, the trapping force is formed by the combination between the gradient field and scattering photons, and is reviewed. By using the intense optical vortices generated within the PANDA ring resonator, the required molecular volumes can be trapped and moved dynamically within the molecular buffer and bus network. The tangle protein and molecular motor can transport and connect to the required destinations, enabling availability for Alzheimer’s diagnosis.

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“…In applications, one of the advantages is that the dark soliton peak signal always at low level, which is useful for secured signal communication in the transmission link. The other applications are associated to the high optical field configurations (as an optical tweezer or potential well) [10]. Spin manipulation has generated tremendous research progress in many fields, as light-shift effect in rubidium atom [11], magnetic clusters [12], semiconductors [13], GaAs/AlGaAs quantum well [14], carbon nanotubes [15], thin-film nanomagnets [16], magnetic tunnel junctions [17], and CdTe quantum dots [18].…”

Section: Introductionmentioning

confidence: 99%

OWLAN Up-Down Link Simultaneously by Optical Spin Generated

Bunruangses¹,

Piyatamrong²,

Mitatha³

et al. 2013

Proceedings of the International Conference on Computer, Networks and Communication Engineering (ICCNCE 2013)

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-This paper proposed a new idea of optical wireless communication simultaneously using the optical spin phenomena. The spin generation from bright and dark soliton conversion behaviors within a modified optical add-drop filter known as PANDA ring resonator is proposed. The orthogonal solitons can be formed within the system and detected simultaneously at the output ports. Under the resonant condition, the dark and bright soliton pair corresponding to the left-hand and right-hand rotating solitons (photons) can be generated. When a soliton is absorbed by an object, an angular momentum of either + ħ or -ħ is imparted to the object, in which two possible spin states known as optoelectronic(soliton) spins are exhibited. The arrays of orthogonal soliton spins can be applied a spin up for uplink and spin down for downlink representation in optical wireless communication.

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Dynamic Potential Well Generation and Control Using Double Resonators Incorporating an Add/Drop Filter

Cited by 41 publications

References 15 publications

Gold nanoparticle trapping and delivery for therapeutic applications

Gold nanoparticle trapping and delivery for therapeutic applications

Proposal for Alzheimer’s diagnosis using molecular buffer and bus network

OWLAN Up-Down Link Simultaneously by Optical Spin Generated

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Dynamic Potential Well Generation and Control Using Double Resonators Incorporating an Add/Drop Filter

Cited by 41 publications

References 15 publications

Gold nanoparticle trapping and delivery for therapeutic applications

Gold nanoparticle trapping and delivery for therapeutic applications

Proposal for Alzheimer&rsquo;s diagnosis using molecular buffer and bus network

OWLAN Up-Down Link Simultaneously by Optical Spin Generated

Contact Info

Product

Resources

About

Proposal for Alzheimer’s diagnosis using molecular buffer and bus network