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    Journals >Infrared and Laser Engineering >Volume 47 >Issue 5 >Page 520003 > Article
    • Infrared and Laser Engineering
    • Vol. 47, Issue 5, 520003 (2018)
    Design of double layer graphene electronic controlled switch
    Shi Yexin* and Li Jiusheng
    Author Affiliations
  • [in Chinese]
    • show less
    DOI: 10.3788/irla201847.0520003 Cite this Article
    Shi Yexin, Li Jiusheng. Design of double layer graphene electronic controlled switch[J]. Infrared and Laser Engineering, 2018, 47(5): 520003 Copy Citation Text show less
    References

    [1] Xie Qi, Yang Hongru, Li Hongguang. Identification of explosives based on terahertz time domain spectroscopy system[J]. Optics and Precision Engineering, 2016, 24(10): 2392-2399. (in Chinese)

    [2] Zhou Xiaodan, Li Lijuan, Zhao Duo, et al. Application of terahertz technology in nondestructive testing of ceramic matrix composite defects[J]. Infrared and Laser Engineering, 2016, 45(8): 0825001. (in Chinese)

    [3] Wang Hua, Sun Xiaohong, Wang Zhen, et al. Characteristics of terahertz wave metamaterial absorber[J]. Infrared and Laser Engineering, 2016, 45(12): 1225003. (in Chinese)

    [4] Qin Hua, Huang Y D, Sun J D, et al. Two dimensional electron gas excited terahertz wave device[J]. Chinese Optics, 2017, 10(1): 51-67. (in Chinese)

    [5] Yarahmadi M, Moravvej-Farshi M K, Yousefi L. Subwavelength graphene-based plasmonic THz switches and logic gates[J]. IEEE Transactions on Terahertz Science and Technology, 2015, 5(5): 725-731.

    [6] Yang Jing, Gong Cheng, Zhao J Y, et al. Fabrication of terahertz devices using 3D printing technology[J]. Chinese Optics, 2017, 10(1): 77-85. (in Chinese)

    [7] Pan X C, Yao Z H, Xu X L, et al. Fabrication, design and application of terahertz band metamaterials[J]. Chinese Optics, 2013, 6(3): 283-296. (in Chinese)

    [8] Zhong L, Zhang B, He T, et al. Conjugated polymer based active electric-controlled terahertz device[J]. Applied Physics Letters, 2016, 108(10): 103301-103302.

    [9] Li J, He J, Hong Z. Terahertz wave switch based on silicon photonic crystals[J]. Applied Optics, 2007, 46(22): 5034-5037.

    [10] Li J, Yao J. Novel optical controllable terahertz wave switch[J]. Optics Communications, 2008, 281(23): 5697-5700.

    [11] Yarahmadi M, Moravvej-Farshi M K, Yousefi L. Subwavelength graphene-based plasmonic THz switches and logic gates[J]. IEEE Transactions on Terahertz Science and Technology, 2015, 5(5): 725-731.

    [12] Zhang H, Guo P, Chen P, et al. Liquid-crystal-filled photonic crystal for terahertz switch and filter[J]. JOSA B, 2009, 26(1): 101-106.

    [13] Gómez-Díaz J S, Perruisseau-Carrier J. Graphene -based plasmonic switches at near infrared frequencies[J]. Optics Express, 2013, 21(13): 15490-15504.

    [14] Sun J Z, Zhang L, Gao F. Ultra-compact terahertz switch with graphene ring resonators[J]. Chinese Physics B, 2016, 25(10): 108701-108702.

    [15] Song K, Mazumder P. Dynamic terahertz spoof surface plasmon-polariton switch based on resonance and absorption[J]. IEEE Transactions on Electron Devices, 2011, 58(7): 2172-2176.

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