Broadband and Energy‐Concentrated Absorber Based on Hemispherical‐Embedded Structure

Abstract: Spatially concentrated absorption is able to form local hotspots and helps to generate hot electrons with higher energy than free electrons, which can be used to improve the performance of hot electron devices. Herein, a broadband, wide‐angle, and highly concentrated metamaterial absorber operating in near‐infrared and midinfrared bands is proposed. The absorptivity of the proposed absorber exceeds 90% in the wavelength range of 2.0–5.4 μm, and the average absorptivity at 2.0–5.4 μm reaches 93.5%. Moreover, th… Show more

“…However, their research focuses only on the mid-infrared single band, and the absorption performance is relatively low. Wu et al (2023) achieved an absorption efficiency of 93.5% in the 2.00-5.40 μm range by incorporating a metal (Ti) into the dielectric layer (Al 2 O 3 ). The resultant absorber delivered excellent absorption performance from the near-infrared to the mid-infrared region, but the absorption rate still below 95%.…”

Ultra-broadband infrared metamaterial absorber based on MDMDM structure for optical sensing

“…However, their research focuses only on the mid-infrared single band, and the absorption performance is relatively low. Wu et al (2023) achieved an absorption efficiency of 93.5% in the 2.00-5.40 μm range by incorporating a metal (Ti) into the dielectric layer (Al 2 O 3 ). The resultant absorber delivered excellent absorption performance from the near-infrared to the mid-infrared region, but the absorption rate still below 95%.…”

Ultra-broadband infrared metamaterial absorber based on MDMDM structure for optical sensing