基于Au/VO2纳米结构的可调控红外吸收器设计
投稿时间:2016-04-21  修订日期:2016-09-29  点此下载全文
引用本文:伍征义,李毅,陈培祖,蒋蔚,徐婷婷,刘志敏,张娇,方宝英,王晓华,肖寒.基于Au/VO2纳米结构的可调控红外吸收器设计[J].红外与毫米波学报,2016,35(6):694~700].WU Zheng-Yi,LI Yi,CHEN Pei-Zu,JIANG Wei,XU Ting-Ting,LIU Zhi-Min,ZHANG Jiao,FANG Bao-Ying,WANG Xiao-Hua,XIAO Han.Design of tunable infrared absorber based on Au/VO2 nanostructures[J].J.Infrared Millim.Waves,2016,35(6):694~700.]
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作者单位E-mail
伍征义 上海理工大学 光电信息与计算机工程学院 ewazywu@126.com 
李毅 上海理工大学 光电信息与计算机工程学院上海市现代光学系统重点实验室 optolyclp@263.net 
陈培祖 上海理工大学光电信息与计算机工程学院 489625794@qq.com 
蒋蔚 上海理工大学光电信息与计算机工程学院 125835245@qq.com 
徐婷婷 上海理工大学光电信息与计算机工程学院 1286258511@qq.com 
刘志敏 上海理工大学光电信息与计算机工程学院 398530193@qq.com 
张娇 上海理工大学光电信息与计算机工程学院 Esther_jiao@126.com 
方宝英 上海理工大学光电信息与计算机工程学院  
王晓华 上海理工大学光电信息与计算机工程学院上海电力学院电子与信息工程学院  
肖寒 上海理工大学光电信息与计算机工程学院上海健康医学院医学影像学院  
基金项目:国家“863”计划(2006AA03Z348);教育部科学技术研究重点项目(207033);上海市科学技术委员会科技攻关计划(06DZ11415);上海市教育委员会科研创新重点项目(10ZZ94);上海市领军人才培养计划资助项目
中文摘要:设计了一种Au/VO2周期性方形孔洞阵列结构的红外吸收器, 利用时域有限差分法研究了吸收器的结构参数对吸收光谱的影响, 优选出VO2和Au膜层厚度分别为140 nm和80 nm, 孔洞边长和阵列周期分别为1.1 μm和1.2 μm时, 吸收可调控特性最为明显, 在2.3 μm处其高低温的吸收率差值可达80.3%.理论模拟计算了光以不同偏振、入射角入射时的吸收, 结果表明, 正入射时吸收器是偏振无关的; 斜入射时吸收器具有广角吸收的特点, 与TM偏振相比TE偏振下吸收器具有更强的角度依赖性.低温时吸收器中的电磁场呈高度局域化分布, 表现为强的吸收; 而高温时吸收器中的电磁场分布在吸收器表面, 吸收被抑制.所设计的吸收器吸收效率高, 吸收强度可以调控, 可应用于新型可调控智能光电器件.
中文关键词:吸收器  热致相变  表面等离子体共振  时域有限差分  广角  偏振无关
 
Design of tunable infrared absorber based on Au/VO2 nanostructures
Abstract:An infrared absorber based on Au/VO2 periodic square hole array is designed in this paper. The effects of structural parameters on the absorption spectrum were calculated by the finite difference time domain method. The theoretical simulation results show that the absorption tunability was the most obvious at Au film thickness of 80nm and VO2 film thickness of 140nm, and the square hole length and array period were 1.1μm and 1.2μm, respectively. The absorption difference between high and low temperature can reach to 80.3% at 2.3μm. Considering the different polarization and incident angles, it is evident that the absorber was polarization-independent at normal incidence and wide angle at oblique incidence. The angular dependence was much stronger in TE polarization compared with TM polarization. In addition, the absorber presented strong absorption because of the highly localized electromagnetic field distribution under low temperature, but the electromagnetic fields are located at the surface at high temperature, which lead to suppressed absorption. The absorber can be applied to new tunable intelligent photovoltaic device due to the advantages of high absorption efficiency, tunable absorption intensity, and easy implementation.
keywords:absorber, thermochromism, surface plasmon resonance, finite difference time domain, wide angle, polarization-independent
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