The optical properties in a chain waveguide of an array of silver nanoshell with dielectric holes

Yuan-Fong Chau; Han-Hsuan Yeh; Chi-Yu Liu; Din Ping Tsai

doi:10.1016/j.optcom.2010.04.028

The optical properties in a chain waveguide of an array of silver nanoshell with dielectric holes

Yuan-Fong Chau, Han-Hsuan Yeh, Chi-Yu Liu, Din Ping Tsai

Research output: Journal Publications and Reviews › RGC 21 - Publication in refereed journal › peer-review

11 Citations (Scopus)

Abstract

Plasmonic chain waveguide by employing an array of silver nanoshell with dielectric holes that interact with incident plane wave of transverse magnetic polarization are simulated by use of the finite element method. Results show that the working wavelength of the system is highly tunable by using the nanoshell instead of solid particles and by varying the dielectric constant of the core. Besides, chain waveguides that are operated on resonant multipolar modes can provide longer propagation lengths, which is beyond what is maximally achieved by conventional solid particle chains. © 2010 Elsevier B.V. All rights reserved.

Original language	English
Pages (from-to)	3189-3193
Journal	Optics Communications
Volume	283
Issue number	16
DOIs	https://doi.org/10.1016/j.optcom.2010.04.028
Publication status	Published - 15 Aug 2010
Externally published	Yes

Bibliographical note

Publication details (e.g. title, author(s), publication statuses and dates) are captured on an “AS IS” and “AS AVAILABLE” basis at the time of record harvesting from the data source. Suggestions for further amendments or supplementary information can be sent to [email protected].

Research Keywords

Finite element method
Nanoshell
Plasmonic chain waveguide

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10.1016/j.optcom.2010.04.028

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title = "The optical properties in a chain waveguide of an array of silver nanoshell with dielectric holes",

abstract = "Plasmonic chain waveguide by employing an array of silver nanoshell with dielectric holes that interact with incident plane wave of transverse magnetic polarization are simulated by use of the finite element method. Results show that the working wavelength of the system is highly tunable by using the nanoshell instead of solid particles and by varying the dielectric constant of the core. Besides, chain waveguides that are operated on resonant multipolar modes can provide longer propagation lengths, which is beyond what is maximally achieved by conventional solid particle chains. {\textcopyright} 2010 Elsevier B.V. All rights reserved.",

keywords = "Finite element method, Nanoshell, Plasmonic chain waveguide",

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AU - Yeh, Han-Hsuan

AU - Liu, Chi-Yu

AU - Tsai, Din Ping

N1 - Publication details (e.g. title, author(s), publication statuses and dates) are captured on an “AS IS” and “AS AVAILABLE” basis at the time of record harvesting from the data source. Suggestions for further amendments or supplementary information can be sent to [email protected].

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N2 - Plasmonic chain waveguide by employing an array of silver nanoshell with dielectric holes that interact with incident plane wave of transverse magnetic polarization are simulated by use of the finite element method. Results show that the working wavelength of the system is highly tunable by using the nanoshell instead of solid particles and by varying the dielectric constant of the core. Besides, chain waveguides that are operated on resonant multipolar modes can provide longer propagation lengths, which is beyond what is maximally achieved by conventional solid particle chains. © 2010 Elsevier B.V. All rights reserved.

AB - Plasmonic chain waveguide by employing an array of silver nanoshell with dielectric holes that interact with incident plane wave of transverse magnetic polarization are simulated by use of the finite element method. Results show that the working wavelength of the system is highly tunable by using the nanoshell instead of solid particles and by varying the dielectric constant of the core. Besides, chain waveguides that are operated on resonant multipolar modes can provide longer propagation lengths, which is beyond what is maximally achieved by conventional solid particle chains. © 2010 Elsevier B.V. All rights reserved.

KW - Finite element method

KW - Nanoshell

KW - Plasmonic chain waveguide

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DO - 10.1016/j.optcom.2010.04.028

M3 - RGC 21 - Publication in refereed journal

SN - 0030-4018

VL - 283

SP - 3189

EP - 3193

JO - Optics Communications

JF - Optics Communications

IS - 16

ER -

The optical properties in a chain waveguide of an array of silver nanoshell with dielectric holes

Abstract

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Research Keywords

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