[1] Zhang Xianbin, T. Ikari, H. Ito et al.. Analysis of THz electromagnetic wave output character based on high performance 85 mm short cavity optical parametric oscillator[J]. Acta Optica Sinica, 2006, 26(4): 616~620
[2] Sun Bo, Yao Jianquan. Generation of terahertz wave based on optical methods[J]. Chin. J. Lasers, 2006, 33(10): 1349~1359
[4] R. W. McGowan, G. Gallot, D. Grischkowsky. Propagation of ultrawide band short pulses of terahertz radiation through submillimeter-diameter circular waveguides[J]. Opt. Lett., 1999, 24(20): 1431~1433
[5] G. Gallot, S. P. Jamison, D. Grischkowsky et al.. Terahertz waveguides[J]. J. Opt. Soc. Am. B, 2000, 17(5): 851~863
[6] T. Hidaka, H. Minamide, S. Ichikawa et al.. Ferroelectric PVDF cladding terahertz waveguide[J]. J. Lightwave Technol., 2005, 23(8): 2469~2473
[7] J. A. Harrington, R. George, E. Mueller et al.. Hollow polycarbonate waveguides with inner Cu coatings for delivery of terahertz radiation[J]. Opt. Exp., 2004, 12(21): 5263~5268
[8] T. Ito, Y. Matsuura, H. Ito et al.. Flexible terahertz fiber optics with low bend-induced losses[J]. J. Opt. Soc. Am. B, 2007, 24(5): 1230~1235
[9] B. Bowden, J. A. Harrington, O. Mitrofanov. Silver/polystyrene-coated hollow glass waveguides for the transmission of terahertz radiation[J]. Opt. Lett., 2007, 32(20): 2945~2947
[10] M. Miyagi, S. Kawakami. Design theory of dielectric coated circular metallic waveguides for infrared Transmission[J]. J. Lightwave Technol., 1984, LT-2(2): 116~126
[11] R. K. Nubling, J. A. Harrington. Launch conditions and mode coupling in hollow-glass waveguides[J]. Opt. Eng., 1998, 37(9): 2454~2458
[12] M. A. Ordal, R. J. Bell, M. R. Querry et al.. Optical properties of Au, Ni, and Pb at submillimeter wavelengths[J]. Appl. Opt., 1987, 26(4): 774~752
[13] M. A. Ordal, R. J. Bell, M. R. Querry et al.. Optical properties of Al, Fe,Ti, Ta, W, and Mo at submillimeter wavelengths[J]. Appl. Opt., 1988, 27(6): 1203~1209