Abstract
Terahertz (THz) filters and detectors can find a wide application in such fields as: sensing, imaging, security systems, medicine, wireless connection, and detection of substances. Thermoelectric materials are promising basis for THz detectors’ development due to their sensitivity to the THz radiation, possibility to be heated under the THz radiation and produce voltage due to Seebeck effect. Thermoelectric thin films of Bi-Sb solid solutions are semimetals/semiconductors with the band gap comparable with THz energy and with high thermoelectric conversion efficiency at room temperature. Detecting film surface can be transformed into a periodic frequency selective surface (FSS) that can operate as a frequency filter and increases the absorption of THz radiation. We report for the first time about the simulation of THz detector based on thermoelectric Bi-Sb thin-filmed frequency-selective surface. We show that such structure can be both detector and frequency filter. Moreover, it was shown that FSS design increases not only a heating due to absorption but a temperature gradient in Bi-Sb film by two orders of magnitude in comparison with continuous films. Local temperature gradients can reach the values of the order of 100 K·mm−1. That opens new perspectives for thin-filmed thermoelectric detectors’ efficiency increase. Temperature difference formed due to THz radiation absorption can reach values on the order of 1 degree. Frequency-transient calculations show the power dependence of film temperature on time with characteristic saturation at times around several ms. That points to the perspective of reaching fast response times on such structures.
Highlights
According to many studies [1], as well as already implemented applications, the terahertz (THz) frequency range is extremely promising for modern THz science and technology
Filters are made of self-standing metal plates that work as good electric conductors and have high reflection; no substrates are used
The reflection amplitude spectra show that thin films based on Bi88Sb12 solid solutions can be potentially used for frequency selective surfaces development for a THz frequency range (e.g., 0.1 and 0.14 THz)
Summary
According to many studies [1], as well as already implemented applications, the terahertz (THz) frequency range is extremely promising for modern THz science and technology. Many substances like water absorb terahertz radiation which is nonionizing due to the low quantum energy of such radiation These features make it possible to use THz radiation in the study of biological tissues and many organic substances [2]. Many materials selectively absorb radiation in the THz frequency range, which makes it possible to use it in various engineering systems [3], for example, for diagnostics [4] and safety purposes [5]. Such applications like imaging [6], wireless communications [7], and spectroscopy [8] can be carried out using THz devices. FSS and metasurfaces have been studied as absorption enhancers for thermoelectric energy harvesters in infrared range [19,20]
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