Hybrid Transistor Manipulation Controlled by Light Within a PANDA Microring Resonator

Chantanetra, Soontorn; Teeka, C.; Mitatha, S.; Jomtarak, Rangsan; Yupapin, P.P.

doi:10.1109/tnb.2012.2189126

Cited by 11 publications

(9 citation statements)

References 20 publications

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“…Optical tweezers can be generated and the required particle trapping force magnitude manipulated by using the non‐linear microring resonator known as a Panda ring resonator where the tweezer probe can be formed by the output beams via the output ports or the center Panda ring. Previous works have successfully produced the optical tweezers in various forms [18, 21, 22]. The optical tweezer model is proposed by using the WGM of light generated by the non‐linear microring resonator system, from which the output tweezers can be configured as optical tweezers.…”

Section: Theoretical Backgroundmentioning

confidence: 99%

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Manual control of optical tweezer switching for particle trapping and injection

Pornsuwancharoen

Youplao

Chaiwong

et al. 2018

Micro & Nano Letters

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This work presents an optical switching model that the tweezer probe uses for manually switching the controlled by an external switch, in which the upward and downward switching can be operated and simultaneously switched. By using the microring resonator incorporated with the two non-linear phase modulators, the optical tweezer can be generated and the switching probes controlled. The switching time with the table force of ∼2 fs is obtained. The tweezer force and torque are calculated and interpreted for molecule trapping and injecting from and to the trapping and the target surfaces. The relative forces and torques are calculated and plotted. In applications, the specific forces and torques can be controlled to perform the appropriate trapping and injecting. The switching time depends on the external switching module, which may be electronically controlled.

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Section: Theoretical Backgroundmentioning

confidence: 99%

“…The mathematical formalism of the device in Fig. 1 gives well‐established details provided in [21, 22]. Finally, the required outputs, for instance throughput, drop and add ports including the center ring output beam can be obtained and used for the trapping force interpretation.…”

Section: Switching Mechanismmentioning

confidence: 99%

Manual control of optical tweezer switching for particle trapping and injection

Pornsuwancharoen

Youplao

Chaiwong

et al. 2018

Micro & Nano Letters

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“…Micro-ring resonators have become promising for various areas of fundamental and applied research, [1][2][3][4][5] especially, for sensors 6 and signal processing. 7 Recently, the Q-factor of ring resonators has been improved rapidly, 8 and the nano-scale has been practically realized. 9,10 In addition, the combination of materials with the current technology such as the dielectric-graphene-conductor making a plasmonic device has shown convincing results, 10,11 from where the plasmonic devices, especially, gratings have been investigated and potentially used in many areas of applications.…”

Section: Introductionmentioning

confidence: 99%

Dual mode grating sensor using microring conjugate mirror and plasmonic island

Pornsuwancharoen

Jalil

Amiri

et al. 2018

Micro & Optical Tech Letters

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In this study, we propose a model for the dual mode gold grating sensor using a microring conjugate mirror (MCM) and the plasmonic island. The sensor measurement of derived quantity is the change in the Bragg wavelength and electron mobility that can be related to the optical phase‐shift or gold grating mobility changes. The plasmonic island consists of the stacked layers of silicon‐graphene‐gold materials. At the resonant condition, the gold electron mobility is driven by the whispering gallery mode generated by the nonlinear microring resonator. Additionally, the 3D reflection power profile of the grating sensor and target source interaction can be formed by the MCM. By selecting the suitable parameters, it can be arranged to have the four‐wave mixing output, which is the criterion of the 3D output of the MRC. The calculation results have shown that there is a relationship between the change in the electron mobility and Bragg wavelength of ~1.5 × 10−21 cm2 V−1 s−1 (mW)−1 at the λ Bragg of 1.55 μm, where the separation of 1 nm is obtained. The related mathematical formulas are re‐arranged for suitable applications.

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“…Recently, a group of scientists have shown the very promising works that a device known as a Panda ring resonator, which is a nonlinear microring resonator and shown the merits of various applications for such as in nanomedicine [1], micro-electronics [2], micro energy dvice [3,4], nano-communication [5] and nano-cosmetics [6]. Such a device was designed and shown the potential of construction (fabrication), from which the thin film device can be made eventually.…”

Section: Introductionmentioning

confidence: 99%

Novel Design of 3D Imaging Pixel On-chip Using A Micro-conjugate Mirror System

Punthawanunt¹,

Yupapin²,

Phataracorn³

2015

Nano BioMed ENG

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We have proposed the novel design of 3D imaging pixel on-chip using a micro-conjugate mirror system, where the nonlinear microring resonator known as a Panda ring resonator is designed to form the micro-conjugate mirror, which can be used to construct a three dimensional (3D) imaging system. Two micro-conjugate mirrors are vertically formed by stacking the two nonlinear Panda rings, which can be used to manipulate the 3D imaging perception, from which the human 3D vision can be replaced by a large area single eye device. In application, a thin film device of a single eye onchip can be modeled and the artificial eye constructed. Simulation results obtained have shown that the single point (pixel) of an object can be interpreted to form the 3D image by the device whispering gallery modes (WGMs), from which the reference and the object beams are interfered and the 3D pixel formed. Finally, the holographic display information can be interpreted by the optic nerves and brain processing cells. The 3D image output signals can be confirmed theoretically by the symmetrical imaging signals.

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Hybrid Transistor Manipulation Controlled by Light Within a PANDA Microring Resonator

Cited by 11 publications

References 20 publications

Manual control of optical tweezer switching for particle trapping and injection

Manual control of optical tweezer switching for particle trapping and injection

Dual mode grating sensor using microring conjugate mirror and plasmonic island

Novel Design of 3D Imaging Pixel On-chip Using A Micro-conjugate Mirror System

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