States dressing analysis in a transmon-transmon-bus system

  1. P. A. Gladilovich,
  2. R.A. Migdisov,
  3. A.V. Sabluk,
  4. P.S. Burtsev,
  5. N.N. Abramov,
  6. N.Y. Rudenko,
  7. V. I. Chichkov,
  8. and N. A. Maleeva
The multi-qubit gates fidelity of superconducting quantum processors can be limited due to the dressing of computational states by noncomputational ones. Here, we experimentally and
analytically investigate a transmon-transmon-bus system where the computational states dressing is tunable over a broad range. We estimate the dressing using three methods: a full three-element model, an effective mode approach, and an unperturbed mode approach. The obtained results highlight the importance of the accurate estimation and control of the computational states dressing in order to optimize gates on superconducting platform.