2019
DOI: 10.1002/adom.201900660
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Electrically Tunable Perfect Terahertz Absorber Based on a Graphene Salisbury Screen Hybrid Metasurface

Abstract: has made realistic applications of the THz wave very limited. Among the functional THz devices, perfect absorbers are highly desirable in manipulating the THz wave in a number of important fields.In recent years, extensive efforts have been devoted to perfect THz absorption based on artificial structures, such as metasurfaces. [2][3][4] Most of these structures, however, were passive devices and incapable of real-time adjustment. Graphene, a 2D sheet of hexagonally arranged carbon atoms, has attracted much att… Show more

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Cited by 94 publications
(65 citation statements)
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“…Important demonstrations include the modulation of wave amplitude [52,53] and phase [54,55] in both reflection and transmission modes particularly for tunable absorption operation. [56][57][58][59] For example, in the representative work, [53] graphene is patterned into an array of nanoribbons to excite localized plasmon resonances in the terahertz band; the transmission peak can shift to higher frequencies when increasing the carrier concentration of graphene. In ref.…”
Section: Graphenementioning
confidence: 99%
“…Important demonstrations include the modulation of wave amplitude [52,53] and phase [54,55] in both reflection and transmission modes particularly for tunable absorption operation. [56][57][58][59] For example, in the representative work, [53] graphene is patterned into an array of nanoribbons to excite localized plasmon resonances in the terahertz band; the transmission peak can shift to higher frequencies when increasing the carrier concentration of graphene. In ref.…”
Section: Graphenementioning
confidence: 99%
“…In the former case, patterned graphene [65,86,88] was used to take advantage of collective charge oscillation, that is, plasmon, for enhanced absorption. Among the latter, one particular example is the monolayer graphene placed on a vertical resonant structure with a bottom mirror or a metallic slit and these platforms have been utilized to achieve electrically controllable enhanced absorption [93][94][95] and extraordinary transmission. [96,97] One of the issues related to the fabrication of these devices is the degradation of the quality of graphene during the patterning or transferring process.…”
Section: Gated-graphene Metamaterials For Active Control Of Thz Wavesmentioning
confidence: 99%
“…Further, the authors discussed the meta-lens with distinguished abilities in focal length tuning, wideband focusing, and wide-angle focusing shifting. In addition to the above two functions, active metasurfaces have also been exploited to achieve absorbing [81][82][83], beam steering [42,[84][85][86][87], polarization switching [88,89], imaging [90], and so on.…”
Section: Active Metasurfaces For Terahertz Manipulation Active Metasumentioning
confidence: 99%