下载掌阅APP,畅读海量书库
立即打开
[1] YANG K H, RICHARDS P L, SHEN Y R. Generation of far-infrared radiation by picosecond light pulses in LiNbO 3 [J]. Applied Physics Letters, 1971, 19(9): 320-323.
[2] JAYARAMAN S, LEE C H. Observation of two-photon conductivity in GaAs with nanosecond and picosecond light pulses[J]. Applied Physics Letters, 1972, 20(10): 392-395.
[3] MOUROU G, STANCAMPIANO C V, BLUMENTHAL D. Picosecond microwave pulse generation[J]. Applied Physics Letters, 1981, 38(6): 470-472.
[4] MOUROU G A, MEYER K E. Subpicosecond electro-optic sampling using coplanar strip transmission lines[J]. Applied Physics Letters, 1984, 45(5): 492-494.
[5] AUSTON D H, CHEUNG K P, SMITH P R. Picosecond photoconducting Hertzian dipoles[J]. Applied Physics Letters, 1984, 45(3): 284-286.
[6] VAN EXTER M, FATTINGER C, GRISCHKOWSKY D. High-brightness terahertz beams characterized with an ultrafast detector[J]. Applied Physics Letters, 1989, 55(4): 337-339.
[7] WU Q, ZHANG X C. Free-space electro-optic sampling of terahertz beams[J]. Applied Physics Letters, 1995, 67(24): 3523-3525.
[8] ZHANG X C, HU B B, DARROW J T, et al. Generation of femtosecond electromagnetic pulses from semiconductor surfaces[J]. Applied Physics Letters, 1990, 56(11): 1011-1013.