Abstract

An ultra-broadband metasurface-based perfect absorber is proposed based on a periodic array of truncated cone-shaped [Formula: see text] surrounded by TiN/[Formula: see text] conical rings. Due to the refractory materials involved in the metasurface, the given structure can keep its structural stability at high temperatures. The proposed structure can achieve a broadband spectrum of 4.3 µm at normal incidence spanning in the range of 0.2-4.5 µm with the absorption higher than [Formula: see text] and the average absorption around [Formula: see text]. The absorption can be tuned through the angle of the cone. By optimizing geometrical parameters, a super absorption is triggered in the range of 0.2-3.25 µm with the absorption higher than 97.40[Formula: see text] and substantially average absorption over 99[Formula: see text]. In this regard, the proposed structure can gather more than [Formula: see text] of the full spectrum of solar radiation. Furthermore, the absorption of the designed structure is almost insensitive to the launching angle up to [Formula: see text] for TE polarization, while it has a weak dependence on the incident angle for TM polarization. The proposed structure can be a promising candidate for thermal energy harvesting and solar absorption applications.