[2] WU D,LI M,YANG X,et al. First lasing of the CAEP THz FEL facility driven by a superconducting accelerator[J]. Journal of Physics:Conference Series, 2018,1067(3):032010-1-032010-8.
[3] HUELGA S F,PLENIO M B. Quantum dynamics of bio-molecular systems in noisy environments[J]. Procedia Chemistry, 2011,3(1):248-257.
[4] DIENST A,CASANDRUC E,FAUSTI D,et al. Optical excitation of Josephson plasma solitons in a cuprate superconductor[J]. Nature Materials, 2013,12(6):535-541.
[5] NIKOLAENKO A E,PAPASIMAKIS N,CHIPOULINE A,et al. THz bandwidth optical switching with carbon nanotube metamaterial[J]. Optics Express, 2012,20(6):6068-6079.
[6] SHI Q,HUANG W,LU T,et al. Nanostructured VO2 film with high transparency and enhanced switching ratio in THz range[J]. Applied Physics Letters, 2014,104(7):071903-1-071903-5.
[7] LYU T T,ZHU Z,SHI J H,et al. Optically controlled background-free terahertz switching in chiral metamaterial[J]. Optics Letters, 2014,39(10):3066-3069.
[9] GREBENCHUKOV A N,ZAITSEV A D,KHODZITSKY M K,et al. Optically controlled narrowband terahertz switcher based on graphene[J]. Chinese Optics, 2018,11(2):166-173.
[16] WEBER M J. Handbook of optical materials[M]. NewYork, USA: CRC Press, 2018.