[1] Zhao C F, Huang B, Shi Z S. Characteristic equation method for propagation properties of terahertz wave in circular hollow waveguide [J]. Journal of Xi’an Jiaotong University, 2012, 46(6): 12-17.

[2] Bang S S, Xiao L T, Xuan Z, et al. Characterization of cylindrical terahertz metallic hollow waveguide with multiple dielectric layers [J]. Appl. Opt. 2012,51(30): 7276-7285.

[3] Rajind M, Victoria A, Liu J, et al. Terahertz microfluidic sensor based on a parallel-plate waveguide resonant cavity [J]. Appl. Phys. Lett. 2009, 95: 171113.

[4] Zhan H, Mendis R, Mittleman D M. Superfocusing terahertz waves below λ/250 using plasmonic parallel-plate waveguides [J]. Opt. Express. 2010, 18(9): 9643-9650.

[5] Mbonye M, Mendis R, Mittleman D M. A terahertz two-wire waveguide with low bending loss [J]. Appl. Phys. Lett. 2009, 95: 233506.

[6] Pahlevaninezhad H, Darcie E T, Heshmat B. Two-wire waveguide for terahertz [J]. Opt. Express 2010, 18(7): 7415-7420.

[7] Hu J, Chen H. Loss characteristics of photonic crystal fiber as terahertz waveguide [J]. Chinese J. Lasers. 2008, 35(4): 568-571.

[8] Shchurova L Y, Namiotb V A. On generation of electromagnetic waves in the terahertz frequency range in a multilayered open dielectric waveguide [J]. Phys. Lett. A. 2013, 377:2440-2446.

[9] You B, Chen H Z, Lu J Y, et al. Terahertz anti-resonant reflecting hollow waveguide sensor [C]. In Lasers and Electro-Optics and Quantum Electronics and Laser Science Conference, San Jose, CA, USA: 2010.

[10] You B, Lu J Y, Liou J H, et al. Subwavelength film sensing based on terahertz anti-resonant reflecting hollow waveguides [J]. Opt. Express. 2010, 18(18): 19353-19360.

[11] Nguema E, Férachou D, Humbert G, et al. Broadband terahertz transmission within the air channel of thin-wall pipe [J]. Opt. Lett. 2011, 36(10):1784.

[12] Liu J. Study of terahertz anti-resonant polymer waveguide. Master thesis [M], Capital Normal University, 2014.

[13] Xiao M F, Liu J, Zhang W, et al. THz wave transmission in thin-wall PMMA pipes fabricated by fiber drawing technique [J]. Opt. Commun. 2013, 298: 101-105.

[14] Xiao M F, Liu J, Zhang W, et al. Self-supporting polymer pipes for low loss single-mode THz transmission [J]. Opt. Express. 2013, 21 17: 19808-19815.

[15] Gerhard M, Theuer M, Rahm M, et al. High efficiency coupling into tapered parallel plate terahertz waveguides [C]. In Conference on Lasers and Electro Optics-Far infrared or terahertz and Guided waves, San Jose, CA, USA: 2013.

[16] Liu S C, Mitrofanov O, Nahatal A. Transmission bleaching and coupling crossover in a split tapered aperture [J]. Opt. Express. 2013, 21(25): 30895-30902.

[17] Liu S C, Vardeny Z V, Nahata1 A. Concentration of broadband terahertz radiation using a periodic array of conically tapered apertures [J]. Opt. Express. 2013, 21(10): 12363-12372.

[18] Gerhard M, Theuer M, Beigang R. Coupling into tapered metal parallel plate waveguides using a focused terahertz beam [J]. Appl. Phys. Lett. 2012, 101:041109.

[19] Zeng X H, Fan Z Y, Zhou P. Field distributions and transmission property inside a conical waveguide with a sub-wavelength-sized exit hole [J]. Acta. Optica. Sinica. 2009; 29(6): 1488-1492.

[20] Kim S H, Lee E S, Ji Y B, et al. Improvement of THz coupling using a tapered parallel-plate waveguide [J]. Opt. Express. 2010, 18(2): 25441-25448.

[21] Nguyen T D, Vardeny Z V, Nahata A. Concentration of terahertz radiation through a conically tapered aperture [J]. Opt. Express. 2010, 18(24): 25441-25448.

[22] Theuer M, Shutler A J, Harsha S S, et al. Terahertz two-cylinder waveguide coupler for transverse-magnetic and transverse-electric mode operation [J]. Appl. Phys. Lett. 2011, 98: 071108.

[23] Peytavit E, Lampin J F, Akalin T, et al. Integrated terahertz TEM horn antenna [J]. Electron Lett. 2007, 43(2): 73-75.

[24] Armand D, Taniguchi H, Kadoya Y, et al. Terahertz full horn-antenna characterization [J]. Appl. Phys. Lett. 2013, 102:141115.