太赫兹波段吸收材料研究
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- 英文论文题名:Research on Terahertz(THz) Absorber Materials
- 论文作者:王东红 ; 李宝毅 ; 周必成
- 英文论文作者:WANG Dong-hong ; LI Bao-yi ; ZHOU Bi-cheng ; No.33 Research Institute of China Electronics Technology Group Corporation ; The Shanxi Province Key Laboratory of Electromagnetic Protection Technology
- 年:2014
- 作者机构:中国电子科技集团公司第三十三研究所;电磁防护技术山西省重点实验室;
- 论文关键词:太赫兹 ; 吸收材料 ; 超材料吸波体
- 英文论文关键词:terahertz(THz) ; absorber materials ; mate-materials absorber
- 会议召开时间:2014-07-21
- 会议录名称:2014年全国电磁兼容与防护技术学术会议论文集(上)
- 语种:中文
- 分类号:TB34
- 学会代码:WBXB
- 会议名称:2014年全国电磁兼容与防护技术学术会议
- 会议地点:中国湖南常德
- 主办单位:中国电子学会微波分会、中国工程物理研究院复杂电磁环境科学与技术重点实验室、总装备部电磁兼容及防护技术专业组、天线与微波技术重点实验室
- 学会名称:《微波学报》编辑部
- 页数:4
- 文件大小:404k
- 原文格式:D
- 会议级别:全国
摘要
本文主要介绍了几种发展较为迅速的太赫兹波段吸收材料——超材料吸波体、碳系材料、超薄金属、半导体材料等对太赫兹波的吸收情况,并展望了太赫兹波段吸收材料的发展趋势及应用前景。
An introduction to the state of some terahertz(THz) absorber materials such as mate-materials absorber, carbon materials, extra-thin metals and semiconductor materials is presented. The developments of terahertz absorber materials are analyzed as well as its applications, based on which, the latest progresses and developing trends are expected.
An introduction to the state of some terahertz(THz) absorber materials such as mate-materials absorber, carbon materials, extra-thin metals and semiconductor materials is presented. The developments of terahertz absorber materials are analyzed as well as its applications, based on which, the latest progresses and developing trends are expected.
引文
[1]李茜,徐昇,刘少聪等.太赫兹对抗等离子体隐身技术的探讨[J].光电技术应用.2011,26(2):9-11.
[2]鲁磊,屈绍波,夏颂等,极化无关双向吸收超材料吸波体的仿真与实验验证.[J].物理学报,2013,62(1):161~165.
[3]Gu C,Qu S B,Pei Z B et al.A metamaterial absorber with direction-selective and polarisation-insensitive property[J].Chinese Physics B,2011,20:037801
[4]Tao H,Bingham C M,Strikwerda A C,et al.Highly flexible wide angle of incidence terahertz metamaterial absorbers:design,fabrication and characterization[J].Physical Review B,2008,78:241103.
[5]Z.C.Chen,N.R.Han,Z.Y.Pan,et al.Tunable resonance enhancement of multi-layer terahertz metamaterials fabricated by parallel laser micro-lens array lithography on flexible substrates.[J].Opt.Express.,2011,1(2):151-157.
[6]顾超,屈绍波,裴志斌等,一种极化不敏感和双面吸波的手性超材料吸波体[J].物理学报,2011,60:107801.
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[8]Li L,Yang Y,Liang C H,A wide-angle polarization-insensitive ultra-thin metamaterial absorber with three resonant modes[J].Journal of Applied Physics,2011,110:063702.
[9]Grant J,Ma Y,Saha S et al.Polarization insensitive,broadband terahertz metamaterial absorber[J].Optics Letters,2011,36:3476-3478.
[10]Landy N I,Binham C M,Tyler T,et al.Design,theory and measurement of a polarization-insensitive absorber for terahertz imaging[J].Physical Review B,2009,79:125104.
[11]李乾坤,李德华,周薇,马建军,鞠智鹏,屈操.单缝双环结构超材料太赫兹波调制器[J].红外与激光工程,2013(6).
[12]苏同福,于斌,韩鹏昱等.多壁碳纳米管太赫兹图谱研究[J].光谱学与光谱分析.2009,29(11):3154-3157
[13]宋玉峰,朱智勇,吉特等.聚乙烯-碳黑复合材料的太赫兹时域光谱研究[J].物理化学学报.2007,23(2):177-180.
[14]Andress Thoman,Andreas Kern Hanspeterhelm et al.Nano structured gold films as broadband terahertz antireflection coatings[J].Physical Review B2008,77(19):195405(1-9).
[15]孙兴林,姜宏伟,贾新峰等.磁控溅射超薄金属膜在太赫兹波段的光学特性[J].功能材料.2007,38(增刊)3116-3118.
[16]李九生.太赫兹波频域的Ga As材料特性[J].光谱学与光谱分析.2009,29(3):577-579.
[17]杨玉平,冯帅,冯辉等.Cu S纳米粒子在太赫兹频段的光电性质研究[J].物理学报.2011,60(2):027802.
[18]van Exter M,Grischkowsy D.Optical and electronic properties of diped silicon from 1.0 to 2.0THz[J].Physical Review Letter.1990,56:1694-1696.
[19]Hebling J,Hoffmann M C,Hwang H Y et al.Observation of nanequilibrium carrier distribution in Ge,Si and Ga As by terahertz probe measurements[J].Physical Review B 2010,81(3):035201(1-5).
[2]鲁磊,屈绍波,夏颂等,极化无关双向吸收超材料吸波体的仿真与实验验证.[J].物理学报,2013,62(1):161~165.
[3]Gu C,Qu S B,Pei Z B et al.A metamaterial absorber with direction-selective and polarisation-insensitive property[J].Chinese Physics B,2011,20:037801
[4]Tao H,Bingham C M,Strikwerda A C,et al.Highly flexible wide angle of incidence terahertz metamaterial absorbers:design,fabrication and characterization[J].Physical Review B,2008,78:241103.
[5]Z.C.Chen,N.R.Han,Z.Y.Pan,et al.Tunable resonance enhancement of multi-layer terahertz metamaterials fabricated by parallel laser micro-lens array lithography on flexible substrates.[J].Opt.Express.,2011,1(2):151-157.
[6]顾超,屈绍波,裴志斌等,一种极化不敏感和双面吸波的手性超材料吸波体[J].物理学报,2011,60:107801.
[7]Tao H,Bingham C M,Pilon D,et al.A dual band terahertz metamaterial absorber[J].Journal of Physics D:Applied Physics,2010,96:225102.
[8]Li L,Yang Y,Liang C H,A wide-angle polarization-insensitive ultra-thin metamaterial absorber with three resonant modes[J].Journal of Applied Physics,2011,110:063702.
[9]Grant J,Ma Y,Saha S et al.Polarization insensitive,broadband terahertz metamaterial absorber[J].Optics Letters,2011,36:3476-3478.
[10]Landy N I,Binham C M,Tyler T,et al.Design,theory and measurement of a polarization-insensitive absorber for terahertz imaging[J].Physical Review B,2009,79:125104.
[11]李乾坤,李德华,周薇,马建军,鞠智鹏,屈操.单缝双环结构超材料太赫兹波调制器[J].红外与激光工程,2013(6).
[12]苏同福,于斌,韩鹏昱等.多壁碳纳米管太赫兹图谱研究[J].光谱学与光谱分析.2009,29(11):3154-3157
[13]宋玉峰,朱智勇,吉特等.聚乙烯-碳黑复合材料的太赫兹时域光谱研究[J].物理化学学报.2007,23(2):177-180.
[14]Andress Thoman,Andreas Kern Hanspeterhelm et al.Nano structured gold films as broadband terahertz antireflection coatings[J].Physical Review B2008,77(19):195405(1-9).
[15]孙兴林,姜宏伟,贾新峰等.磁控溅射超薄金属膜在太赫兹波段的光学特性[J].功能材料.2007,38(增刊)3116-3118.
[16]李九生.太赫兹波频域的Ga As材料特性[J].光谱学与光谱分析.2009,29(3):577-579.
[17]杨玉平,冯帅,冯辉等.Cu S纳米粒子在太赫兹频段的光电性质研究[J].物理学报.2011,60(2):027802.
[18]van Exter M,Grischkowsy D.Optical and electronic properties of diped silicon from 1.0 to 2.0THz[J].Physical Review Letter.1990,56:1694-1696.
[19]Hebling J,Hoffmann M C,Hwang H Y et al.Observation of nanequilibrium carrier distribution in Ge,Si and Ga As by terahertz probe measurements[J].Physical Review B 2010,81(3):035201(1-5).
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