A New Design Optical Tweezers by Triple Ring Resonator

M. Tasakorn; N. Pornsuwancharoen; P.P. Yupapin; S. Thongmee

doi:10.4028/www.scientific.net/AMR.979.504

Paper Titles

Luminescence and Optical Properties of Li₂O₃:Gd₂O₃:B₂O₃:Sm₂O₃ Glasses System
p.479

A Study of Double Microring Resonator Behavior for 1.3 μm Optical Communication
p.483

Multi-Wavelength Bits Generation by Mesh Ring Resonator System for Optical Communication Security Application
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A New Chaotic Signal Generation of a Series Microring Resonator for Optical Communication
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A Study of Triple Ring Resonator Behavior for Optical Communication
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Holographic Data Storage and Display by PANDA Ring Resonator Technique
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A New Design Optical Tweezers by Triple Ring Resonator
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High Frequency Generation Based-On Nonlinear Micro Ring Resonator for Frequency Band Enhancement
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Determination of Sucrose Concentrates Using Ellipsometry Technique and Transmission Spectroscopy
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HomeAdvanced Materials ResearchAdvanced Materials Research Vol. 979A New Design Optical Tweezers by Triple Ring...

A New Design Optical Tweezers by Triple Ring Resonator

Abstract:

We propose a new system of the multi-quantum tweezers array generation using a soliton generation control within the triple ring resonator system, whereas the dynamic tweezers can be generated within a microring device. By using the quantum processor, the entangle photon states of the tweezers can be formed, which is allowed to form the molecular quantum transmission. We have also theoretically shown that the optical tweezers can be controlled and tuned by varying the couple coefficient (κ) between 0.25 and 0.9, with ring resonator radii between 7 and 15 μm, which is available for molecule trapping. In application, the transmission of tweezers with different molecules or DNA can be performed, which is available for high density and security molecular transportation via the optical communication system.

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Periodical:

Advanced Materials Research (Volume 979)

Pages:

504-507

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.979.504

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Online since:

June 2014

Authors:

M. Tasakorn*, N. Pornsuwancharoen, P.P. Yupapin, S. Thongmee

Keywords:

Chaotic Communication, Microring Resonator, Optical Tweezers

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References

[1] A. Ashkin, J.M. Dziedzic, J.E. Bjorkholm and S. Chu, Observation of a single-beam gradient force optical trap for dielectric particles, Opt. Lett., 11(1986) 288-290.

DOI: 10.1364/ol.11.000288

Google Scholar

[2] R. L. Eriksen, V. R. Daria, and J. Gl¨uckstad, Fully dynamic multiple-beam optical tweezers, Opt. Express. 10(2002) 597–602.

DOI: 10.1364/oe.10.000597

Google Scholar

[3] P. J. Rodrigo, V. R. Daria, and J. Gl¨uckstad, Real-time interactive optical micromanipulation of a mixture of high- and low-index particles, Opt. Express, 12(2004)1417–1425.

DOI: 10.1364/opex.12.001417

Google Scholar

[4] J. Liesener, M. Reicherter, T. Haist, and H. J. Tiziani, Multi-functional optical tweezers using computer generated holograms, Opt. Commun. 185(2000) 77–82.

DOI: 10.1016/s0030-4018(00)00990-1

Google Scholar

[5] J. E. Curtis, B. A. Koss, and D. G. Grier, Dynamic holographic optical tweezers, Opt. Commun. 207(2002)169–175.

DOI: 10.1016/s0030-4018(02)01524-9

Google Scholar

[6] W. J. Hossack, E. Theofanidou, J. Crain, K. Heggarty, and M. Birch, High-speed holographic optical tweezers using a ferroelectric liquid crystal microdisplay, Opt. Express 11(2003)2053–(2059).

DOI: 10.1364/oe.11.002053

Google Scholar