García-Ripoll, Juan JoséRuíz-Chamorro, AndrésTorrontegui Muñoz, Erik2021-03-112021-03-112020-10García-Ripoll, J. J., Ruiz-Chamorro, A., Torrontegui, E. (2020). Quantum Control of Frequency-Tunable Transmon Superconducting Qubits. Physical Review Applied, 14(4).2331-7019https://hdl.handle.net/10016/32115In this work we analyze the implementation of a control-phase gate through the resonance between the |11〉 and |20〉 states of two statically coupled transmons. We find that there are many different controls for the transmon frequency that implement the same gate with fidelities around 99.8% (T1 = T2 = 17 μs) and 99.99% (T1 = T2 = 300 μs) within a time that approaches the theoretical limit. All controls can be brought to this accuracy by calibrating the waiting time and the destination frequency near the |11〉−|20〉 resonance. However, some controls, such as those based on the theory of dynamical invariants, are particularly attractive due to reduced leakage, robustness against decoherence, and their limited bandwidth.12eng© 2020 American Physical SocietyQuantum controlQuantum gatesQuantum information with solid state qubitsSuperconducting qubitsresearch articleFísicahttp://dx.doi.org/10.1103/PhysRevApplied.14.044035open access044035-14044035-12Physical Review Applied14AR/0000026547