High-performance dual-tunable terahertz absorber based on strontium titanate and bulk Dirac semimetal for temperature sensing andswitching function.

Abstract

In this study, a perfect metamaterial absorber based on strontium titanate and bulk Dirac semimetals is proposed. When the temperature of strontium titanate was 300K, the dual-band absorptions were 99.74% and 99.99% at 1.227 and 1.552THz, respectively. The sensitivities based on a transverse magnetic (TM) wave were 0.95 and 1.22GHz/K; the sensitivity based on a transverse electric (TE) wave was 0.76GHz/K. The TE and TM waves were modulated by inserting a bulk Dirac semimetal between the concave and convex devices. The modulation depth of the TE wave was 97.9% at 1.1THz; the extinction ratio was 16.9dB. The modulation depth of the TE wave at 1.435THz was 95.9%; the extinction ratio was 13.89dB. The TM wave modulation depth at 1.552THz was 95.9%; the extinction ratio was 13.98dB. Irrespective of a TE or TM wave, the terahertz absorber has good switching and temperature-sensing performance based on strontium titanate and bulk Dirac semimetals as well as broad application prospects in temperature sensing and switching devices.