双曲超材料的研究进展
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- 英文论文题名:Progress of Hyperbolic Metamaterials
- 论文作者:宁仁霞 ; 焦铮 ; 许媛 ; 孙剑
- 英文论文作者:NING Ren-xia ; JIAO Zheng ; XU Yuan ; SUN Jian ; College of Information Engineering ; Huangshan University
- 年:2016
- 作者机构:黄山学院信息工程学院;
- 论文关键词:超材料 ; 双曲色散特性 ; 石墨烯 ; 各向异性
- 英文论文关键词:materials ; hyperbolic dispersion ; graphene ; anisotropic
- 会议召开时间:2016-08-17
- 会议录名称:2016年全国军事微波、太赫兹、电磁兼容技术学术会议论文集
- 语种:中文
- 分类号:TB33
- 学会代码:WBXB
- 会议名称:2016年全国军事微波、太赫兹、电磁兼容技术学术会议
- 会议地点:中国陕西西安
- 主办单位:中国电子学会微波分会、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:555k
- 原文格式:D
- 会议级别:全国
摘要
超材料作为一种人工电磁材料,近年来发展十分迅猛。双曲超材料作为一种新型的人工复合电磁材料,在满足一定条件下,对于特定的电磁波,其色散曲线为双曲特性,在负折射、完美吸收、光学成像等方面有潜在的应用前景。本文首先介绍双曲超材料的电磁特性,从材料方面介绍国内外目前的研究现状,结合本课题组的工作,综述了双曲超材料的研究进展,展望了双曲超材料的发展前景,为进一步研究双曲超材料的特性和应用提供参考。
Among the varieties of Metamaterials proposed and fabricated, hyperbolic metamaterials have rapidly gained a central role in metamaterials. The dispersive curve is hyperbolic at certain frequency range. The interaction of these metamaterials with their near-field results in applications ranging from negative refraction, perfect absorption and imaging to sub-wavelength. Here we review the latest progress in electromagnetic properties of hyperbolic metamaterials from materials. The process and prospect of hyperbolic metamaterials are summarized which would provide guidance for further to investigate its applications.
Among the varieties of Metamaterials proposed and fabricated, hyperbolic metamaterials have rapidly gained a central role in metamaterials. The dispersive curve is hyperbolic at certain frequency range. The interaction of these metamaterials with their near-field results in applications ranging from negative refraction, perfect absorption and imaging to sub-wavelength. Here we review the latest progress in electromagnetic properties of hyperbolic metamaterials from materials. The process and prospect of hyperbolic metamaterials are summarized which would provide guidance for further to investigate its applications.
引文
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[17]Pu M,Chen P,Wang Y,et al.Strong enhancement of light absorption and highly directive thermal emission in graphene[J].Opt Express,2013,21(10):11618-27.
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[19]Sreekanth K V,De Luca A,Strangi G.Negative refraction in graphene-based hyperbolic metamaterials[J].Applied Physics Letters,2013,103(2):023107.
[20]Su Z,Yin J,Zhao X.Terahertz dual-band metamaterial absorber based on graphene/MgF 2multilayer structures[J].Optics express,2015,23(2):1679-1690.
[21]Ning R,Liu S,Zhang H,and Jiao Z.Dual-gated tunable absorption in graphene-based hyperbolic metamaterial[J].AIP Advances 2015,5(6):067106.
[22]Ning R,Liu S,Zhang H,et al.Tunable absorption in graphene-based hyperbolic metamaterials for mid-infrared range[J].Physica B:Condensed Matter,2015,457:144-148.
[23]Ning R,Liu S,Zhang H,et al.Wideband absorption in fibonacci quasi-periodic graphene-based hyperbolic metamaterials[J].Journal of Optics,2014,16(12):125108.
[24]Hoffman A J,Alekseyev L,Howard S S,et al.Negative refraction in semiconductor metamaterials[J].Nature Materials,2007,6(12):946-50.
[25]Hoffman A J,Sridhar A,Braun P X,et al.Midinfrared semiconductor optical metamaterials[J].Journal of Applied Physics,2009,105(12):122411.
[26]Narimanov E E,Kildishev A V.Metamaterials:Naturally hyperbolic[J].Nature Photonics,2015,9(4):214-6.
[27]刘少斌,孔祥鲲,戴赕,等.电磁波在等离子体超材料中的非线性传播特性[J].微波学报,2013,29(5):86-99.
[28]HSIEH T H,LIN H,LIU J,et al.Topological crystalline insulators in the Sn Te material class[J].Nature communications,2012,3:982.
[29]Sobhani A,Lauchner A,Najmaei S,et al.Enhancing the photocurrent and photoluminescence of single crystal monolayer MoS 2 with resonant plasmonic nanoshells[J].Applied Physics Letters,2014,104(3):031112.
[30]Lu S B,Miao L L,Guo Z N,et al.Broadband nonlinear optical response in multi-layer black phosphorus:an emerging infrared and mid-infrared optical material[J].Optics express,2015,23(9):11183-94.
[2]Smith D R,Schurig D.Electromagnetic Wave Propagation in Media with Indefinite Permittivity and Permeability Tensors[J].Physical Review Letters,2003,90(7):797-805.
[3]Yao J,Liu Z,Liu Y,et al.Optical Negative Refraction in Bulk Metamaterials of Nanowires[J].Science,2008,321(5891):930-930.
[4]M.A.NOGINOV Y A B,G.ZHU,T.TUMKUR,H.LI,AND E.E.NARIMANOV.Bulk photonic metamaterial with hyperbolic dispersion[J].Applied Physics Letters2009,94:151105.
[5]High A A,Devlin R C,Dibos A,et al.Visible-frequency hyperbolic metasurface[J].Nature,2015,522(7555):192-6.
[6]Zhang L,Zhang Z,Kang C,et al.Tunable bulk polaritons of graphene-based hyperbolic metamaterials[J].Optics express,2014,22(11):14022-14030.
[7]Xiang Y,Dai X,Guo J,et al.Critical coupling with graphene-based hyperbolic metamaterials[J].Scientific reports,2014,4.
[8]Guo Y,Cortes C L,Molesky S,et al.Broadband super-Planckian thermal emission from hyperbolic metamaterials[J].Applied Physics Letters 2012,101(13):131106.
[9]Guclu C,Campione S,Capolino F.Hyperbolic metamaterial as super absorber for scattered fields generated at its surface[J].Physical Review B,2012,86(20):205130.
[10]Zhu W,Xiao F,Kang M,et al.Tunable terahertz left-handed metamaterial based on multi-layer graphene-dielectric composite[J].Applied Physics Letters,2014,104(5):051902.
[11]Silveirinha M G.Nonlocal Homogenization Model for a Periodic Array ofε-Negative Rods[J].Phys Rev E2006,73(4):046612.
[12]Tumkur T,Zhu G,Black P,et al..Control of spontaneous emission in a volume of functionalized hyperbolic metamaterial[J].Applied Physics Letters,2011,99(15):151115.
[13]Guclu C,Campione S,Capolino F.Hyperbolic metamaterial as super absorber for scattered fields generated at its surface[J].Physical Review B,2012,86(20):205130.
[14]He Y,He S,Gao J,et al.Giant transverse optical forces in nanoscale slot waveguides of hyperbolic metamaterials[J].Optics express,2012,20(20):22372-22382.
[15]Falkovsky L,Pershoguba S.Optical far-infrared properties of a graphene monolayer and multilayer[J].Physical Review B,2007,76(15):153410.
[16]Falkovsky L A.Optical properties of graphene[J].Journal of Physics:Conference Series,2008,129(1):012004.
[17]Pu M,Chen P,Wang Y,et al.Strong enhancement of light absorption and highly directive thermal emission in graphene[J].Opt Express,2013,21(10):11618-27.
[18]Iorsh I,Mukhin I,Shadrivov I,et al.Hyperbolic metamaterials based on multilayer graphene structures[J].Physical Review B,2013,87(7):075416.
[19]Sreekanth K V,De Luca A,Strangi G.Negative refraction in graphene-based hyperbolic metamaterials[J].Applied Physics Letters,2013,103(2):023107.
[20]Su Z,Yin J,Zhao X.Terahertz dual-band metamaterial absorber based on graphene/MgF 2multilayer structures[J].Optics express,2015,23(2):1679-1690.
[21]Ning R,Liu S,Zhang H,and Jiao Z.Dual-gated tunable absorption in graphene-based hyperbolic metamaterial[J].AIP Advances 2015,5(6):067106.
[22]Ning R,Liu S,Zhang H,et al.Tunable absorption in graphene-based hyperbolic metamaterials for mid-infrared range[J].Physica B:Condensed Matter,2015,457:144-148.
[23]Ning R,Liu S,Zhang H,et al.Wideband absorption in fibonacci quasi-periodic graphene-based hyperbolic metamaterials[J].Journal of Optics,2014,16(12):125108.
[24]Hoffman A J,Alekseyev L,Howard S S,et al.Negative refraction in semiconductor metamaterials[J].Nature Materials,2007,6(12):946-50.
[25]Hoffman A J,Sridhar A,Braun P X,et al.Midinfrared semiconductor optical metamaterials[J].Journal of Applied Physics,2009,105(12):122411.
[26]Narimanov E E,Kildishev A V.Metamaterials:Naturally hyperbolic[J].Nature Photonics,2015,9(4):214-6.
[27]刘少斌,孔祥鲲,戴赕,等.电磁波在等离子体超材料中的非线性传播特性[J].微波学报,2013,29(5):86-99.
[28]HSIEH T H,LIN H,LIU J,et al.Topological crystalline insulators in the Sn Te material class[J].Nature communications,2012,3:982.
[29]Sobhani A,Lauchner A,Najmaei S,et al.Enhancing the photocurrent and photoluminescence of single crystal monolayer MoS 2 with resonant plasmonic nanoshells[J].Applied Physics Letters,2014,104(3):031112.
[30]Lu S B,Miao L L,Guo Z N,et al.Broadband nonlinear optical response in multi-layer black phosphorus:an emerging infrared and mid-infrared optical material[J].Optics express,2015,23(9):11183-94.