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Design and simulation of chiral negative refractive structure based on folded-wire

Li Jie Yang Fang-Qing Wang Zhan Dong Jian-Feng

Design and simulation of chiral negative refractive structure based on folded-wire

Li Jie, Yang Fang-Qing, Wang Zhan, Dong Jian-Feng
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  • A new chiral structure working in microwave and optical frequency bands based on folded-wire is designed and simulated. Effective parameters of this structure, including polarization azimuth rotation angle, ellipticity angle, relative permittivity, relative permeability, chiral parameter and refractive index are obtained from simulated transmission and reflection spectra. The results show that the exceptionally strong polarization azimuth rotation angle and the ellipticity angle are found in microwave and optical frequency bands. Because this structure has a large chiral parameter, negative refractive index of a circularly polarized wave can be obtained without requiring permittivity and permeability to be negative simultaneously.
    • Funds:
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    Veselago V G 1968 Sov. Phys. Usp. 10 509

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    Smith D R, Padilla W J, Vier D C, Nemat-Nasser S C, Schultz S 2000 Phys. Rev. Lett. 84 4184

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    Shelby R A, Smith D R, Schultz S 2001 Science 292 77

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    Caloz C, Itoh T 2002 IEEE Ante. Prop. Soci. Int. Symp. 2 412

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    Eleftheriades G V, Iyer A K, Kremer P C 2002 IEEE Trans. Microwave Theory and Tech. 50 2702

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    Cubukcu E, Aydin K, Ozbay E, Foteinopoulou S, Soukoulis C M 2003 Nature 423 604

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    Parimi P V, Lu W T, Vodo P, Srinivas S 2003 Nature 426 404

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    Tretyakov S, Nefedov I, Sihvola A, Maslovski S, Simovski C 2003 J. Electromag. Wave Appl. 17 695

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    Pendry J B 2004 Science 306 1353

    [10]

    Zhou J, Dong J, Wang B, Koschny T, Kafesaki M, Soukoulis C M 2009 Phys. Rev. B 79 121104(R)

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    Plum E, Zhou J, Dong J, Fedotov V A, Koschny T, Soukoulis C M, Zheludev N I 2009 Phys. Rev. B 79 035407

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    Dong J, Zhou J, Koschny T, Soukoulis C M 2009 Opt. Express 17 14172

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    Rogacheva A V, Fedotov V A, Schwanecke A S, Zheludev N I 2006 Phys. Rev. Lett. 97 177401

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    Plum E, Fedotov V A, Schwanecke A S, Zheludev N I, Chen Y 2007 Appl. Phys. Lett. 90 223113

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    Decker M, Zhao R, Soukoulis C M, Linden S, Wegener M 2010 Opt. Lett. 35 1593

    [16]

    Xiong X, Sun W, Bao Y, Wang M, Peng R, Sun C, Lu X, Shao J, Li Z, Ming N 2010 Phys. Rev. B 81 075119

    [17]

    Li Z, Zhao R, Koschny T, Kafesaki M, Alici K B, Colak E, Caglayan H, Ozbay E, Soukoulis C M 2010 Appl. Phys. Lett. 97 081901

    [18]

    Dong J F, Xu C, Xu J 2009 Mater. Rev. 23 84 (in Chinese) [董建峰、徐 超、徐 键 2009 材料导报 23 84]

    [19]

    Dong J F, Xu C, Xu J 2009 Chin. J. Quant. Electr. 26 385 (in Chinese) [董建峰、徐 超、徐 键 2009 量子电子学报 26 385]

    [20]

    Tang M C, Xiao S Q, Guan J, Bai Y Y, Gao S S, Wang B Z 2010 Chin. Phys. B 19 074214

    [21]

    Bao S, Luo C R, Zhao X P 2011 Acta Phys. Sin. 60 014101 (in Chinese) [保 石、罗春荣、赵晓鹏 2011物理学报 60 014101]

    [22]

    Ma H, Qu S B, Xu Z, Zhang J Q, Wang J F 2009 Chin. Phys. B 18 1025

    [23]

    Wen R M, Li L Y, Han K W, Sun X W 2010 Acta Phys. Sin. 59 4607 (in Chinese) [闻孺铭、李凌云、韩克武、孙晓玮 2010 物理学报 59 4607]

    [24]

    Zhang Y P, Zhao X P, Bao S, Luo C R 2010 Acta Phys. Sin. 59 6078 (in Chinese) [张燕萍、赵晓鹏、保 石、罗春荣 2010物理学报 59 6078]

  • [1]

    Veselago V G 1968 Sov. Phys. Usp. 10 509

    [2]

    Smith D R, Padilla W J, Vier D C, Nemat-Nasser S C, Schultz S 2000 Phys. Rev. Lett. 84 4184

    [3]

    Shelby R A, Smith D R, Schultz S 2001 Science 292 77

    [4]

    Caloz C, Itoh T 2002 IEEE Ante. Prop. Soci. Int. Symp. 2 412

    [5]

    Eleftheriades G V, Iyer A K, Kremer P C 2002 IEEE Trans. Microwave Theory and Tech. 50 2702

    [6]

    Cubukcu E, Aydin K, Ozbay E, Foteinopoulou S, Soukoulis C M 2003 Nature 423 604

    [7]

    Parimi P V, Lu W T, Vodo P, Srinivas S 2003 Nature 426 404

    [8]

    Tretyakov S, Nefedov I, Sihvola A, Maslovski S, Simovski C 2003 J. Electromag. Wave Appl. 17 695

    [9]

    Pendry J B 2004 Science 306 1353

    [10]

    Zhou J, Dong J, Wang B, Koschny T, Kafesaki M, Soukoulis C M 2009 Phys. Rev. B 79 121104(R)

    [11]

    Plum E, Zhou J, Dong J, Fedotov V A, Koschny T, Soukoulis C M, Zheludev N I 2009 Phys. Rev. B 79 035407

    [12]

    Dong J, Zhou J, Koschny T, Soukoulis C M 2009 Opt. Express 17 14172

    [13]

    Rogacheva A V, Fedotov V A, Schwanecke A S, Zheludev N I 2006 Phys. Rev. Lett. 97 177401

    [14]

    Plum E, Fedotov V A, Schwanecke A S, Zheludev N I, Chen Y 2007 Appl. Phys. Lett. 90 223113

    [15]

    Decker M, Zhao R, Soukoulis C M, Linden S, Wegener M 2010 Opt. Lett. 35 1593

    [16]

    Xiong X, Sun W, Bao Y, Wang M, Peng R, Sun C, Lu X, Shao J, Li Z, Ming N 2010 Phys. Rev. B 81 075119

    [17]

    Li Z, Zhao R, Koschny T, Kafesaki M, Alici K B, Colak E, Caglayan H, Ozbay E, Soukoulis C M 2010 Appl. Phys. Lett. 97 081901

    [18]

    Dong J F, Xu C, Xu J 2009 Mater. Rev. 23 84 (in Chinese) [董建峰、徐 超、徐 键 2009 材料导报 23 84]

    [19]

    Dong J F, Xu C, Xu J 2009 Chin. J. Quant. Electr. 26 385 (in Chinese) [董建峰、徐 超、徐 键 2009 量子电子学报 26 385]

    [20]

    Tang M C, Xiao S Q, Guan J, Bai Y Y, Gao S S, Wang B Z 2010 Chin. Phys. B 19 074214

    [21]

    Bao S, Luo C R, Zhao X P 2011 Acta Phys. Sin. 60 014101 (in Chinese) [保 石、罗春荣、赵晓鹏 2011物理学报 60 014101]

    [22]

    Ma H, Qu S B, Xu Z, Zhang J Q, Wang J F 2009 Chin. Phys. B 18 1025

    [23]

    Wen R M, Li L Y, Han K W, Sun X W 2010 Acta Phys. Sin. 59 4607 (in Chinese) [闻孺铭、李凌云、韩克武、孙晓玮 2010 物理学报 59 4607]

    [24]

    Zhang Y P, Zhao X P, Bao S, Luo C R 2010 Acta Phys. Sin. 59 6078 (in Chinese) [张燕萍、赵晓鹏、保 石、罗春荣 2010物理学报 59 6078]

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    [4] The physics-based model of AlGaN/GaN high electron mobility transistor outer fringing capacitances. Acta Physica Sinica, 2020, (): . doi: 10.7498/aps.69.20191931
    [5] Liao Tian-Jun, Lü Yi-Xiang. Thermodynamic limit and optimal performance prediction of thermophotovoltaic energy conversion devices. Acta Physica Sinica, 2020, 69(5): 057202. doi: 10.7498/aps.69.20191835
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Publishing process
  • Received Date:  24 April 2011
  • Accepted Date:  17 May 2011
  • Published Online:  15 November 2011

Design and simulation of chiral negative refractive structure based on folded-wire

  • 1. Institute of Optical Fiber Communication and Network Technology, Ningbo University, Ningbo 315211, China

Abstract: A new chiral structure working in microwave and optical frequency bands based on folded-wire is designed and simulated. Effective parameters of this structure, including polarization azimuth rotation angle, ellipticity angle, relative permittivity, relative permeability, chiral parameter and refractive index are obtained from simulated transmission and reflection spectra. The results show that the exceptionally strong polarization azimuth rotation angle and the ellipticity angle are found in microwave and optical frequency bands. Because this structure has a large chiral parameter, negative refractive index of a circularly polarized wave can be obtained without requiring permittivity and permeability to be negative simultaneously.

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