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    Journals >Infrared and Laser Engineering >Volume 44 >Issue 6 >Page 1832 > Article
    • Infrared and Laser Engineering
    • Vol. 44, Issue 6, 1832 (2015)
    Influence of temperature on resonant properties in terahertz subwavelength metal structures
    Wu A′ni1、*, Li Chenyu1, Zhou Qingli1, Liu Jianfeng1, Sun Huijuan2、3, Yang Zhou1, and Zhang Cunlin1
    Author Affiliations
  • 1[in Chinese]
  • 2[in Chinese]
  • 3[in Chinese]
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    DOI: Cite this Article
    Wu A′ni, Li Chenyu, Zhou Qingli, Liu Jianfeng, Sun Huijuan, Yang Zhou, Zhang Cunlin. Influence of temperature on resonant properties in terahertz subwavelength metal structures[J]. Infrared and Laser Engineering, 2015, 44(6): 1832 Copy Citation Text show less
    References

    [1] Ferguson B, Zhang X C. Materials for terahertz science and technology[J]. Nature Materials, 2002, 1(1): 26-33.

    [2] Dolling G, Wegener M, Soukoulis C M, et al. Negative-index metamaterial at 780 nm wavelength[J]. Optics Letters, 2007, 32(1): 53-55.

    [3] Padilla W J, Aronsson M T, Highstrete C, et al. Electrically resonant terahertz metamaterials: Theoretical and experimental investigations[J]. Physical Review B, 2007, 75(4): 041102.

    [4] Smith D R, Pendry J B, Wiltshire M C K. Metamaterials and negative refractive index[J]. Science, 2004, 305(5685): 788-792.

    [5] Soukoulis C M, Linden S, Wegener M. Negative refractive index at optical wavelengths[J]. Science, 2007, 315(5808): 47-49.

    [6] Zhou Q, Shi Y, Wang A, et al. Ultrafast optical modulation of terahertz metamaterials[J]. Journal of Optics, 2011, 13(12): 125102.

    [7] Liu J, Zhou Q, Shi Y, et al. Study of L-shaped resonators at terahertz frequencies[J]. Applied Physics Letters, 2013, 103(24): 241911.

    [8] Liu J, Zhou Q, Shi Y, et al. Study of dipole arrays at terahertz frequencies[J]. Optics Communications, 2013, 291: 26-30.

    [9] Yen T J, Padilla W J, Fang N, et al. Terahertz magnetic response from artificial materials[J]. Science, 2004, 303(5663): 1494-1496.

    [10] Chen H T. Interference theory of metamaterial perfect absorbers[J]. Optics Express, 2012, 20(7): 7165-7172.

    [11] Chen H T, Padilla W J, Zide J M O, et al. Active terahertz metamaterial devices[J]. Nature, 2006, 444(7119): 597-600.

    [12] Chen H T, Padilla W J, Cich M J, et al. A metamaterial solid-state terahertz phase modulator[J]. Nature Photonics, 2009, 3(3): 148-151.

    [13] Blakemore J S. Solid State Physics[M]. 2nd ed. Philadelphia: W.B.Saunders Company, 1973.

    CLP Journals

    [1] Li Yihan, Zhang Mile, Cui Hailin, He Jingsuo, Zhang Cunlin. Terahertz absorbing properties of different metal split-ring resonators[J]. Infrared and Laser Engineering, 2016, 45(12): 1225002

    [2] Li Chenyu, Yang Zhou, Zhou Qingli, Wu A′ni, Zhang Cunlin. Influence of structures on optical modulation in terahertz metamaterials[J]. Infrared and Laser Engineering, 2016, 45(7): 703002

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    Wu A′ni, Li Chenyu, Zhou Qingli, Liu Jianfeng, Sun Huijuan, Yang Zhou, Zhang Cunlin. Influence of temperature on resonant properties in terahertz subwavelength metal structures[J]. Infrared and Laser Engineering, 2015, 44(6): 1832
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