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Updated: Jun 18, 2026

Simulation, Fabrication and Characterization of THz Metamaterial Absorbers
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Simulation, Fabrication and Characterization of THz Metamaterial Absorbers

Published on: December 27, 2012

Reconfigurable terahertz metamaterials.

Hu Tao1, A C Strikwerda, K Fan

  • 1Department of Mechanical Engineering, Boston University, 110 Cummington Street, Boston, Massachusetts 02215, USA.

Physical Review Letters
|November 13, 2009
PubMed
Summary
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Researchers created adaptive metamaterials that can change their properties using heat. These reconfigurable metamaterials, with orienting split ring resonators, show tunable electric and magnetic responses for advanced applications.

Area of Science:

  • Metamaterials science
  • Terahertz technology
  • Nanotechnology

Background:

  • Metamaterials offer unique electromagnetic properties not found in nature.
  • Controlling metamaterial properties dynamically is crucial for advanced applications.
  • Terahertz frequencies present unique challenges and opportunities for metamaterial design.

Purpose of the Study:

  • To demonstrate reconfigurable anisotropic metamaterials at terahertz frequencies.
  • To investigate the tunability of electric and magnetic responses in adaptive metamaterials.
  • To explore potential applications of adaptive metamaterials.

Main Methods:

  • Fabrication of planar arrays of split ring resonators on bimaterial cantilevers.
  • Utilizing thermal stimulus to induce out-of-plane bending of cantilevers.

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Fabricating Metamaterials Using the Fiber Drawing Method
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Fabricating Metamaterials Using the Fiber Drawing Method

Published on: October 18, 2012

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Last Updated: Jun 18, 2026

Simulation, Fabrication and Characterization of THz Metamaterial Absorbers
13:44

Simulation, Fabrication and Characterization of THz Metamaterial Absorbers

Published on: December 27, 2012

Fabricating Metamaterials Using the Fiber Drawing Method
11:57

Fabricating Metamaterials Using the Fiber Drawing Method

Published on: October 18, 2012

  • Observing the reorientation of artificial atoms (split ring resonators) within unit cells.
  • Main Results:

    • Demonstrated reconfigurable anisotropic metamaterials at terahertz frequencies.
    • Observed marked tunability of electric and magnetic responses due to resonator reorientation.
    • Confirmed the correlation between stimulus, reorientation, and property changes.

    Conclusions:

    • Adaptive metamaterials can be dynamically controlled using external stimuli.
    • Reconfigurable metamaterials exhibit significant potential for novel electromagnetic functionalities.
    • Applications include thermal detection, reconfigurable cloaks, and absorbers.