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Updated: Mar 25, 2026

Design, Fabrication, and Experimental Characterization of Plasmonic Photoconductive Terahertz Emitters
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Anisotropic 2D Materials for Tunable Hyperbolic Plasmonics.

Andrei Nemilentsau1, Tony Low2, George Hanson1

  • 1Department of Electrical Engineering & Computer Science, University of Wisconsin-Milwaukee, Milwaukee, Wisconsin 53211, USA.

Physical Review Letters
|February 27, 2016
PubMed
Summary
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New anisotropic 2D materials host hyperbolic plasmons with controllable directions. Gate doping enables dynamic manipulation of these plasmons, offering new possibilities for optical devices.

Area of Science:

  • Condensed Matter Physics
  • Materials Science
  • Nanophotonics

Background:

  • Anisotropic 2D materials are a novel class of materials with unique electromagnetic properties.
  • Hyperbolic plasmons are collective electron oscillations that exhibit unique light-matter interactions.

Purpose of the Study:

  • To investigate the electromagnetic modes in anisotropic 2D materials.
  • To demonstrate the hosting of hyperbolic plasmons in these materials.
  • To explore the dynamic control of hyperbolic plasmon propagation.

Main Methods:

  • Theoretical analysis of electromagnetic modes in anisotropic 2D materials.
  • Numerical simulations of plasmon propagation and manipulation.
  • Investigation of the effect of gate doping on plasmonic properties.

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Main Results:

  • A broad class of anisotropic 2D materials can host highly directional hyperbolic plasmons.
  • The propagation direction of hyperbolic plasmons can be precisely controlled via gate doping.
  • Demonstration of on-demand hyperbolic beam reflection, refraction, and bending.

Conclusions:

  • The emergence of 2D hyperbolic media provides a new platform for dynamic control of hyperbolic plasmons.
  • This offers unprecedented possibilities for manipulating light at the nanoscale, surpassing limitations of 3D hyperbolic materials.