太赫兹辐射
材料科学
超材料吸收剂
窄带
宽带
光电子学
超材料
带宽(计算)
石墨烯
光学
吸收(声学)
折射率
还原(数学)
极化(电化学)
太赫兹光谱与技术
相(物质)
相位响应
可调谐超材料
作者
Kunxuan Su,Yingwen Long,Wenhao Yang
出处
期刊:Photonics
[Multidisciplinary Digital Publishing Institute]
日期:2026-02-21
卷期号:13 (2): 205-205
标识
DOI:10.3390/photonics13020205
摘要
A hybrid graphene-VO2 reconfigurable terahertz metamaterial absorber is proposed for broadband radar cross-section (RCS) reduction and high-performance sensing. The designed structure leverages the phase transition property of VO2 and the electrostatic tunability of graphene to achieve dynamic switching between ultra-broadband and narrowband absorption states. When VO2 is in the metallic state and graphene is unbiased, the absorber exhibits over 90% absorption across 0.82~3.50 THz, corresponding to a relative bandwidth of 124%. In the narrowband mode, with VO2 in the insulating state and graphene biased (Ef = 1 eV), a sharp absorption peak exceeding 60% is achieved at 1.48 THz. The symmetrical design ensures polarization insensitivity and wide-angle stability. Applications in broadband RCS reduction higher than 10 dB and refractive index sensing with a sensitivity of 24.86 GHz/RIU are demonstrated, surpassing conventional terahertz sensors. This work provides a promising platform for adaptive terahertz stealth and sensing systems.
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