用热声探针探测强太赫兹脉冲

V. Vdovin, V. Andreev, A. B. Vasil’ev, Yuriy K. Kalynov
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摘要

只提供摘要形式。本文介绍了用热声探测器测量频率为0.55 ~ 0.87 THz、持续时间为3 ~ 10 mcs的电磁脉冲的结果。探测器的工作原理是基于电磁脉冲在放射性透明基片-吸收剂-浸没液层状结构中被吸收时产生的声信号效应。在石英衬底上溅射纳米厚度的金属薄膜作为吸收剂。电磁辐射在膜内和与膜接触的液体中转化为声脉冲。声脉冲由宽带声换能器检测,用数字示波器记录。结果表明,对于微秒级脉冲,热声探测器探测到的信号波形与太赫兹脉冲轮廓的导数完全匹配。当使用水和乙醇作为浸没液时,额外的膜吸收剂的存在是不必要的,因为这些液体有效地吸收频率范围为0.5-1太赫兹的电磁辐射。
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Detection of powerful terahertz pulses with use of termoacoustic probe
Summary form only given. Results of measurements of electromagnetic pulses with 3 to 10 mcs duration at frequencies 0.55-0.87 THz by the thermoacoustic detector are presented. Operation of the detector is based on effect of acoustic signal generation when electromagnetic pulses are absorbed in the layered structure: radiotransparent substrate-absorber-immersion liquid. Thin metallic film of nanometer thickness sputtered onto the quartz substrate is used as an absorber. The transformation of electromagnetic radiation into acoustic pulse is performed in the film and in the liquid contacting with the film. Acoustic pulse is detected by the broadband acoustic transducer and registered with a digital oscilloscope. It is shown that for the pulse of microsecond duration the signal waveform detected by the thermoacoustic detector is completely matched to the derivative of a profile of terahertz pulse. When water and ethanol are used as immersion liquids the presence of additional film absorber is not compulsory because these liquids absorb effectively the electromagnetic radiation in frequency range 0.5-1 THz.
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