[1]李 聪,喻思丹,刘天长,等.基于金属/介质混合腔阵列结构的偏振完美吸收及传感应用研究[J].江西师范大学学报(自然科学版),2018,(04):389-392.[doi:10.16357/j.cnki.issn1000-5862.2018.04.12]
 LI Cong,YU Sidan,LIU Tianchang,et al.The Metal and Dielectric Hybrid Cavity Arrays for Polarization-Manipulated Multispectral Perfect Absorption and Sensitive Sensing[J].Journal of Jiangxi Normal University:Natural Science Edition,2018,(04):389-392.[doi:10.16357/j.cnki.issn1000-5862.2018.04.12]
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基于金属/介质混合腔阵列结构的偏振完美吸收及传感应用研究()
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《江西师范大学学报》(自然科学版)[ISSN:1006-6977/CN:61-1281/TN]

卷:
期数:
2018年04期
页码:
389-392
栏目:
出版日期:
2018-08-20

文章信息/Info

Title:
The Metal and Dielectric Hybrid Cavity Arrays for Polarization-Manipulated Multispectral Perfect Absorption and Sensitive Sensing
文章编号:
1000-5862(2018)04-0389-04
作者:
李 聪喻思丹刘天长桑明煌*
江西师范大学物理与通信电子学院,江西省光电子通信重点实验室,江西 南昌 330022
Author(s):
LI CongYU SidanLIU TianchangSANG Minghuang*
College of Physics and Communication Electronics,Jiangxi Key Laboratory of Optoelectronic and Telecommunication, Jiangxi Normal University,Nanchang Jiangxi 330022,China
关键词:
光学腔模 偶极等离子体共振 灵敏度 偏振可调多带吸收
Keywords:
optical cavity mode dipolar plasmon resonance sensitivity polarization-manipulated multispectral absorption
分类号:
TN 253
DOI:
10.16357/j.cnki.issn1000-5862.2018.04.12
文献标志码:
A
摘要:
提出一种完美吸收结构,其包含一金衬底层,上方为金圆柱与氧化铝长方柱镶嵌而成的金属/介质混合腔阵列.模拟计算发现:电场主要局域在金圆柱的边缘和氧化铝长方柱内部,该结果表明偶极等离子体共振和等离子体激元腔模式是产生多频带完美吸收的主要机理.该结构制作简单,且其完美吸收具备偏振调控和对周围样品折射率变化高度灵敏,这些特性有望为实现痕量检测提供一种简便方法.
Abstract:
A multispectral perfect absorber is proposed and demonstrated by utilizing a square array of an Al2O3-cuboid intercalated with an Au-cylinderdeposited on an opaque Au substrate.It is shown that the electric field is strongly localized in the corner region of Au cylinder and the inside area of Al2O3 cuboid,namely,the dipolar plasmon resonance and the plasmon cavity mode are the two primary reasons for the occurrence of perfect absorption.Moreover,the absorption is polarization depended and highly sensitive to the refractive index variation of the surrounding sample.These findings could open a simplified alternative approach to achieve the practical trace detection.

参考文献/References:

[1] Chang D E,Sorensen A S,Demler EA,et al.A single-photon transistor using nanoscale surface plasmons[J].Nature Physics,2007,3(11):807-812.
[2] Cui Yanxia,He Yingran,Jin Yi,et al.Plasmonic and metamaterial structures as electromagnetic absorbers[J].Laser & Photonics Reviews,2014,8(4):495-520.
[3] Willets K A,Van Duyne R P.Localized surface plasmon resonance spectroscopy and sensing[J].Annual Review of Physical Chemistry,2007,58(1):267-297.
[4] Aydin K,Ferry V E,Briggs R M,et al.Broadband polarization-independent resonant light absorption using ultrathin plasmonic super absorbers[J].Nature Communications,2011,2(1):517.
[5] Liu Zhengqi,Liu Guiqiang,Wang Yan,et al.Polarization-induced tunability of plasmonic light absorption in arrays of sub-wavelength elliptical disks[J].Plasmonics,2016,11(1):79-86.
[6] Wang Jing,Chen Yiting,Chen Xi,et al.Photothermal reshaping of gold nanoparticles in a plasmonicabsorber[J].Optics Express,2011,19(15):14726-14734.
[7] Lu Xiaoyuan,Wan Rengang,Zhang T.Metal-dielectric-metal based narrow band absorber for sensing applications[J].Optics Express,2015,23:29842-29847.
[8] 桑明煌,李新华,余子星.基于对称金属包覆波导的高精度微位移测量[J].江西师范大学学报:自然科学版,2013,37( 2):111-115.
[9] Zhao Ding,Meng Lijun,Gong Hanmo,et al.Ultra-narrow-band light dissipation by a stack of lamellar silver and alumina[J].Applied Physics Letters,2014,104(22):207402.
[10] Xiong Xiang,Jiang Shangchi,Peng Ruwen,et al.Structured metal film as a perfect absorber[J].Advanced Materials,2013,25(29):3994-4000.
[11] Langhammer C,Schwind M,Kasemo B,Zoric I.Localized surface plasmon resonances inaluminum nanodisks[J].Nano Letters,2008,8(5):1461-1471.
[12] Taflove A,Hagness S C.Computational electrodynamics:the finite-difference time-domain method[EB/OL].
[2017-11-16].http://www.gbv.de/dms/ilmenau/toc/310485800.PDF.
[13] Palik E D.Handbook of optical constants of solids[J].OpticaActaInternational Journal of Optics,1998,39(1):189-189.
[14] Le F,Brandl D W,Urzhumov Y A,et al.Metallic nanoparticle arrays:a common substrate for both surface-enhanced Raman scattering and surface-enhanced infrared absorption[J].ACS Nano,2008,2(4):707-718.
[15] Kuznetsov A I,Miroshnichenko A E,Brongersma M L,et al.Optically resonant dielectric nanostructures[J].Science,2016,354:2472.
[16] Li Yulian,An Bowen,Jiang Shengming,et al.Plasmonic induced triple-band absorber for sensor application[J].Optics Express,2015,23(13):17607-17612.
[17] Bahramipanah M,Abrishamian M S,Mirtaheria S A,et al.Ultracompact plasmonic loop-stub notch filter and sensor[J].Sens Actuators B Chem,2014,194(194):311-318.

备注/Memo

备注/Memo:
收稿日期:2018-01-22
基金项目:国家自然科学基金(61505073,61765008,11764020),江西省自然科学基金(20161ACB21011,20161BAB212045)和江西省教育厅科技课题(GJJ150313,GJJ160273)项目资助.
通信作者:桑明煌(1965-),男,江西德安人,教授,主要从事导波光学和光纤激光器研究.E-mail:sangqdli@aliyun.com
更新日期/Last Update: 2018-08-20