Dual-band, Dynamically Tunable Plasmonic Metamaterial Absorbers Based on Graphene for Terahertz Frequencies

Abstract: In this paper, a compact plasmonic metamaterial absorber for terahertz frequencies is proposed and simulated. T he absorber is based on metamaterial graphene structures, and benefits from dynamically controllable properties of graphene. T hrough patterning graphene layers, plasmonic resonances are tailored to provide a dual band as well as an improved bandwidth absorption. Unit cell of the designed structure is made of four complementary square rings, on a thin grounded SiO2 layer of 5 µm thickness. Four split… Show more

“…Although it achieves an average absorption >95% over the width of 0.6 to 10.0 THz, it cannot tunable. Current tunable absorbers mainly use tunable materials such as vanadium dioxide, 14 graphene, 15 Dirac semimetal, 16 and photosensitive silicon 17 to achieve tunability. VO 2 , as a phase change material, can be transformed from the insulating state to the metallic state at T ¼ 340K using electrical or thermal excitation.…”

Tunable ultrawideband perfect absorber based on vanadium dioxide

“…Although it achieves an average absorption >95% over the width of 0.6 to 10.0 THz, it cannot tunable. Current tunable absorbers mainly use tunable materials such as vanadium dioxide, 14 graphene, 15 Dirac semimetal, 16 and photosensitive silicon 17 to achieve tunability. VO 2 , as a phase change material, can be transformed from the insulating state to the metallic state at T ¼ 340K using electrical or thermal excitation.…”

Tunable ultrawideband perfect absorber based on vanadium dioxide