Quantum simulation of ultrastrongly coupled bosonic modes using superconducting circuits

  1. S. Fedortchenko,
  2. S. Felicetti,
  3. D. Marković,
  4. S. Jezouin,
  5. A. Keller,
  6. T. Coudreau,
  7. B. Huard,
  8. and P. Milman
The ground state of a pair of ultrastrongly coupled bosonic modes is predicted to be a two-mode squeezed vacuum. However, the corresponding quantum correlations are currently unobservable
in condensed matter where such a coupling can be reached, since it cannot be extracted from these systems. Here, we show that superconducting circuits can be used to perform an analog simulation of a system of two bosonic modes in regimes ranging from strong to ultrastrong coupling. More importantly, our quantum simulation set-up enables to detect output excitations that are related to the ground state properties of the bosonic modes. We compute the emission spectra of this physical system and show that the produced state presents single and two-mode squeezing simultaneously.