Dynamical Tuning of Graphene Plasmonic Resonances by Ultraviolet Illuminations

Dai, Yunyun; Xia, Yuyu; Jiang, Tongying; Chen, Ang; Zhang, Yiwen; Bai, Yujie; Du, Guiqiang; Guan, Fang; Wu, Shiwei; Liu, Xiaohan; Shi, Lei; Zi, Jian

doi:10.1002/adom.201701081

Cited by 15 publications

(8 citation statements)

References 43 publications

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“…Metamaterials 24‐43 and its two‐dimensional (2D) counterpart metasurfaces 44‐68 made from plasmonic resonant 69‐73 or Mie resonant building blocks 74‐84 are especially promising for the enhancement of light–matter interactions 19,85,86 at a subwavelength scale. Various plasmonic and Mie metamaterials have been proposed for achieving high Q factor response, 87‐96 for example, the trapped mode, which is kind of magnetic mode weakly coupled to free space, was suggested to be excited by introducing symmetry breaking in the shape of structural elements for realizing sharp spectral response 87 .…”

Section: Introductionmentioning

confidence: 99%

Subwavelength optical localization with toroidal excitations in plasmonic and Mie metamaterials

Yang

Shen

et al. 2021

InfoMat

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Since the performance of electronic circuits is becoming rather limited in face of intensively increasing of amount of information and related operations, all‐optical processing offers a promising strategy for future information system. It would benefit a great deal if the all‐optical processing could be implemented within the developed electronic chips of nanoscale structures. In that it is highly desirable to break the diffraction limit of light for achieving effective light manipulations with deep subwavelength structures compatible with the state‐of‐the‐art nanofabrication processes. It is of fundamental importance to get subwavelength optical localization, that is, squeeze light wave into subwavelength space for achieving freely manipulating of light fields. This review summarizes the development in realizing subwavelength optical localization by exciting toroidal mode in photonic metamaterials. The toroidal excitations in plasmonic metamaterials and Mie resonant metamaterials, in 3D structures and planar metamaterials, with single or few layers in spectral regime from microwave to optical frequencies are surveyed. Based on the discussion on the configurations of toroidal excitations, the recent development on toroidal‐related optical scattering control actively manipulates the toroidal excitations, and promising applications are further investigated and highlighted.

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Section: Introductionmentioning

confidence: 99%

Subwavelength optical localization with toroidal excitations in plasmonic and Mie metamaterials

Yang

Shen

et al. 2021

InfoMat

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“…The tuning range of graphene E F is obtained from the threshold transmittance spectra in near infrared range caused by interband transitions. [ 44 ] The minimum E F is close to zero at 0.8 V voltage and the maximum E F is about 0.5 eV at –2 V voltage. The transmittance spectra as a function of gate voltage for bare GPRs and GPRs‐Au structures are compared in Figure 4c,d.…”

Section: Resultsmentioning

confidence: 95%

Transmission‐Type Optical Modulator Based on Graphene Plasmonic Resonator Integrated with Off‐Resonant Au Structure

Xia

Wang

Zhang

et al. 2020

Advanced Optical Materials

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In this paper, a transmission‐type graphene plasmonic modulator by introducing off‐resonant Au structure is theoretically and experimentally investigated. It is found that the modulation efficiency and bandwidth could be dramatically enhanced compared with bare graphene plasmonic structure. The validity of this proposed method is verified both in the 1D and 2D graphene plasmonic structures: ribbons and holes. This work will open up a new path to design the high‐efficiency modulators, switches, and multispectral detectors.

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“…There are two commonly used methods to tune E F , namely electric tuning and chemical tuning . We should note that E F can also be influenced in other circumstances, such as ultraviolet light illumination, metal contacts and high‐intensity nonequilibrium electron–hole pairs excitation …”

Section: Polaritons In 2d Materialsmentioning

confidence: 99%

Polariton Photonics Using Structured Metals and 2D Materials

Cai

Wang

et al. 2019

Advanced Optical Materials

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Polaritons are quasiparticles originating from strong interactions between photons and elementary excitations that could enable high tunability, tight electromagnetic field confinement, and large density of photonic states, making it possible to achieve novel and otherwise inaccessible functionalities. For these reasons, polaritons spawn great interest in the fields of physics, materials science, and optics for both fundamental studies as well as potential applications (e.g., modulators, photodetectors, photoluminescence, etc.). In recent years, the explosive growth of research in graphene and other 2D van der Waals materials is witnessed because they provide a new platform that substantially complements conventional metals, dielectrics, and semiconductors to investigate different polariton modes. This review highlights the works published in recent years on the topic of polariton photonics based on structured metals, graphene, and transition‐metal dichalcogenides (TMDs). The exotic optical properties of the polaritons in metallic structures and 2D van der Waals materials offer bright prospects for the development of high‐performance photonic and optoelectronic devices.

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Dynamical Tuning of Graphene Plasmonic Resonances by Ultraviolet Illuminations

Cited by 15 publications

References 43 publications

Subwavelength optical localization with toroidal excitations in plasmonic and Mie metamaterials

Subwavelength optical localization with toroidal excitations in plasmonic and Mie metamaterials

Transmission‐Type Optical Modulator Based on Graphene Plasmonic Resonator Integrated with Off‐Resonant Au Structure

Polariton Photonics Using Structured Metals and 2D Materials

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