Abstract
Generation of terahertz pulses via mixing the Fourier harmonics of strongly focused near-IR pumping laser pulses in a plasmon waveguide filled with a nonlinear medium is considered. At a certain choice of its parameters, this waveguide provides efficient transverse confinement of the terahertz mode and a low dispersion of its refractive index. As a result, the system becomes capable of generating short fairly intense terahertz pulses. Such an approach significantly (by a factor of 50) decreases the pump power compared with that in the conventional (waveguide-free) schemes, which generate terahertz pulses from single pumping pulses (optical rectification), and still yields the same intensity of the output terahertz pulse and conversion efficiency. For the Ag-GaP-Ag structure taken as an example, optimal parameters of the plasmon waveguide and pumping pulse are found and characteristics of the output terahertz pulse are calculated.
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