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Related Experiment Video

Updated: Oct 16, 2025

Colloidal Synthesis of Nanopatch Antennas for Applications in Plasmonics and Nanophotonics
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Active spoof plasmonics: from design to applications.

Yi Ren1,2, Jingjing Zhang1,2, Xinxin Gao1,2

  • 1Institute of Electromagnetic Space, Southeast University, Nanjing 210096, People's Republic of China.

Journal of Physics. Condensed Matter : an Institute of Physics Journal
|October 21, 2021
PubMed
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Spoof plasmonic metamaterials offer miniaturized communication devices. This review highlights active spoof surface plasmonic devices and their applications in real-time electromagnetic wave control.

Area of Science:

  • Metamaterials Science
  • Electromagnetics
  • Nanophotonics

Background:

  • Spoof plasmonic metamaterials facilitate electromagnetic energy transmission with strong field confinement.
  • Miniaturization of communication devices is a key driver for advanced metamaterial research.
  • Active, reconfigurable, and nonlinear devices are crucial for manipulating spoof surface plasmonic signals.

Purpose of the Study:

  • To review recent advancements in spoof surface plasmons.
  • To focus on active spoof surface plasmonic devices and systems.
  • To discuss various design schemes and their applications.

Main Methods:

  • Review of existing literature on spoof surface plasmonic metamaterials.
  • Categorization of different design schemes for active devices.
Keywords:
active spoof plasmonicsmetamaterialspoof surface plasmons

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  • Analysis of applications including filters, sensors, attenuators, and modulators.
  • Main Results:

    • Active spoof surface plasmonic devices enable dynamic, real-time control of electromagnetic waves.
    • Diverse applications demonstrated, including reconfigurable filters, high-resolution sensors, and digital modulators.
    • Various design schemes for active spoof surface plasmonic devices have been introduced.

    Conclusions:

    • Active spoof surface plasmonic metamaterials show significant promise for future communication systems.
    • The ability to dynamically control electromagnetic waves is a key advantage.
    • Further research into active spoof surface plasmonic devices will drive innovation in miniaturized electronics.