Generation of intense broadband terahertz(THz) waves from gas plasma induced by tri-color ultrashort(fundamental(ω), second harmonic(2ω), and third harmonic(3ω)) laser pulses is theoretically investigated. Simulati...Generation of intense broadband terahertz(THz) waves from gas plasma induced by tri-color ultrashort(fundamental(ω), second harmonic(2ω), and third harmonic(3ω)) laser pulses is theoretically investigated. Simulation results show that the 3ω laser pulse can greatly enhance or suppress the generation of THz wave at different values of relative phase(θ 3) between the 3ω and ω fields. Moreover, the polarities of the generated THz waves can be controlled by changing θ 3,with the relative phase θ 2(between the 2ω and ω fields) fixed to be a certain value. All of our results show that θ 3 plays a key role in the generation process, which promises to control the intensity as well as the polarity of gas plasma-induced THz radiation.展开更多
基金supported by the Wuhan Applied Basic Research Project,China(Grant No.20140101010009)the National Natural Science Foundation of China(Grant Nos.61177095,61475054,and 61405063)+2 种基金the Natural Science Foundation of Hubei Province,China(Grant Nos.2012FFA074 and 2013BAA002)the Fundamental Research Funds for the Central Universities,China(Grant Nos.2013KXYQ004,2014ZZGH021,and 2014QN023)the Technology Innovation Foundation from Innovation Institute of Huazhong University of Science and Technology,China(Grant No.CXY13Q015)
文摘Generation of intense broadband terahertz(THz) waves from gas plasma induced by tri-color ultrashort(fundamental(ω), second harmonic(2ω), and third harmonic(3ω)) laser pulses is theoretically investigated. Simulation results show that the 3ω laser pulse can greatly enhance or suppress the generation of THz wave at different values of relative phase(θ 3) between the 3ω and ω fields. Moreover, the polarities of the generated THz waves can be controlled by changing θ 3,with the relative phase θ 2(between the 2ω and ω fields) fixed to be a certain value. All of our results show that θ 3 plays a key role in the generation process, which promises to control the intensity as well as the polarity of gas plasma-induced THz radiation.
