Superconducting complementary metasurfaces for THz ultrastrong light-matter coupling


Abstract in English

A superconducting metasurface operating in the THz range and based on the complementary metamaterial approach is discussed. Experimental measurements as a function of temperature and magnetic field display a modulation of the metasurface with a change in transmission amplitude and frequency of the resonant features. Such a metasurface is successively used as a resonator for a cavity quantum electrodynamic experiment displaying ultrastrong coupling to the cyclotron transition of a 2DEG. A finite element modeling is developed and its results are in good agreement with the experimental data. In this system a normalized coupling ratio of $frac{Omega}{omega_c}=0.27$ is measured and a clear modulation of the polaritonic states as a function of the temperature is observed.

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