Formation and Evolution Mechanism of Plasmon Resonance from Single Ring-Shaped Nanotube to Dimer and Arrays

Formation and Evolution Mechanism of Plasmon Resonance from Single Ring-Shaped Nanotube to Dimer and Arrays

The formation and evolution mechanisms of plasmon resonance from single Ring-shaped nanotube to dimer and arrays are studied; an attempt has been made to bridge the gap between single-tube, dimer, and array. Results show that resonant modes can be divided into three types: quadrupole, hexapole, and...

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Main Authors: F. Q. Zhou, Z. M. Liu, H. J. Li, Z. F. Liu, B. Tang, X. Zhou
Format: Article
Language:English
Published: Hindawi Limited 2014-01-01
Series:Journal of Nanomaterials
Online Access:http://dx.doi.org/10.1155/2014/387208
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spelling doaj-3e908f9277284a7f83ff94dda46f89022020-11-24T22:55:03ZengHindawi LimitedJournal of Nanomaterials1687-41101687-41292014-01-01201410.1155/2014/387208387208Formation and Evolution Mechanism of Plasmon Resonance from Single Ring-Shaped Nanotube to Dimer and ArraysF. Q. Zhou0Z. M. Liu1H. J. Li2Z. F. Liu3B. Tang4X. Zhou5College of Sciences, East China Jiaotong University, Nanchang 330013, ChinaCollege of Sciences, East China Jiaotong University, Nanchang 330013, ChinaCollege of Physics Science and Technology, Central South University, Changsha 410083, ChinaCollege of Sciences, East China Jiaotong University, Nanchang 330013, ChinaSchool of Mathematics and Physics, Changzhou University, Changzhou 213164, ChinaSchool of Sciences, Hunan University of Technology, Zhuzhou 412008, ChinaThe formation and evolution mechanisms of plasmon resonance from single Ring-shaped nanotube to dimer and arrays are studied; an attempt has been made to bridge the gap between single-tube, dimer, and array. Results show that resonant modes can be divided into three types: quadrupole, hexapole, and octupole resonance from visible to near infrared region, and each mode maintains relatively stable resonant characteristics, but the optical transmission properties including redshift and blueshift of the modes and band gap are highly tunable by adjusting the number of nanotube and intertube spacing values. The field-interference mechanism has been suggested to explain the physical origin.http://dx.doi.org/10.1155/2014/387208
collection DOAJ
language English
format Article
sources DOAJ
author F. Q. Zhou
Z. M. Liu
H. J. Li
Z. F. Liu
B. Tang
X. Zhou
spellingShingle F. Q. Zhou
Z. M. Liu
H. J. Li
Z. F. Liu
B. Tang
X. Zhou
Formation and Evolution Mechanism of Plasmon Resonance from Single Ring-Shaped Nanotube to Dimer and Arrays
Journal of Nanomaterials
author_facet F. Q. Zhou
Z. M. Liu
H. J. Li
Z. F. Liu
B. Tang
X. Zhou
author_sort F. Q. Zhou
title Formation and Evolution Mechanism of Plasmon Resonance from Single Ring-Shaped Nanotube to Dimer and Arrays
title_short Formation and Evolution Mechanism of Plasmon Resonance from Single Ring-Shaped Nanotube to Dimer and Arrays
title_full Formation and Evolution Mechanism of Plasmon Resonance from Single Ring-Shaped Nanotube to Dimer and Arrays
title_fullStr Formation and Evolution Mechanism of Plasmon Resonance from Single Ring-Shaped Nanotube to Dimer and Arrays
title_full_unstemmed Formation and Evolution Mechanism of Plasmon Resonance from Single Ring-Shaped Nanotube to Dimer and Arrays
title_sort formation and evolution mechanism of plasmon resonance from single ring-shaped nanotube to dimer and arrays
publisher Hindawi Limited
series Journal of Nanomaterials
issn 1687-4110
1687-4129
publishDate 2014-01-01
description The formation and evolution mechanisms of plasmon resonance from single Ring-shaped nanotube to dimer and arrays are studied; an attempt has been made to bridge the gap between single-tube, dimer, and array. Results show that resonant modes can be divided into three types: quadrupole, hexapole, and octupole resonance from visible to near infrared region, and each mode maintains relatively stable resonant characteristics, but the optical transmission properties including redshift and blueshift of the modes and band gap are highly tunable by adjusting the number of nanotube and intertube spacing values. The field-interference mechanism has been suggested to explain the physical origin.
url http://dx.doi.org/10.1155/2014/387208
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