EPJ Web of Conferences (Mar 2013)

Metamaterial-Enhanced Nonlinear Terahertz Spectroscopy

  • Zhang X.,
  • Perkins B. G.,
  • Brandt N. C.,
  • Sternbach A.,
  • Strikwerda A. C.,
  • Zhang J.,
  • Fan K.,
  • Liu M.,
  • Hwang H. Y.,
  • Averitt R. D.,
  • Nelson K. A.

DOI
https://doi.org/10.1051/epjconf/20134109005
Journal volume & issue
Vol. 41
p. 09005

Abstract

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We demonstrate large nonlinear terahertz responses in the gaps of metamaterial split ring resonators in several materials and use nonlinear THz transmission and THz-pump/THz-probe spectroscopy to study the nonlinear responses and dynamics. We use the field enhancement in the SRR gaps to initiate high-field phenomena at lower incident fields. In vanadium dioxide, we drive the insulator-to-metal phase transition with high-field THz radiation. The film conductivity increases by over two orders of magnitude and the phase transition occurs on a several picosecond timescale. In gallium arsenide, we observe high-field transport phenomena, including mobility saturation and impact ionization. The carrier density increases by up to ten orders of magnitude at high fields. At the highest fields, we demonstrate THz-induced damage in both vanadium dioxide and gallium arsenide.