Tailoring Terahertz Pulses With Moving Fronts: Temporal Stretching And Time-Reversal
2020 45TH INTERNATIONAL CONFERENCE ON INFRARED, MILLIMETER, AND TERAHERTZ WAVES (IRMMW-THZ)(2020)
摘要
We demonstrate experimentally a strategy for using relativistic moving dielectric fronts to trigger and affect the generation of coherent terahertz (THz) pulses. Our emission mechanism draws energy from the photoexcitation of built-in static Schottky fields present at metal-semiconductor boundaries in a silicon-filled parallel plate waveguide (PPWG). Fronts tuned to sub-luminal velocity produce THz pulses whose electric field temporal profile displays a stretched plateau of quasi-dc character. Super-luminal fronts, on the other hand, provide access to front-induced interactions giving a clear signature of pulse timereversal.
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关键词
temporal stretching,relativistic moving dielectric fronts,coherent terahertz pulses,emission mechanism,photoexcitation,static Schottky fields,metal-semiconductor boundaries,silicon-filled parallel plate waveguide,electric field temporal profile,stretched plateau,quasidc character,superluminal fronts,front-induced interactions,pulse time-reversal,subluminal velocity produce,Si
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