New PRApplied Publication: Crosstalk-robust quantum control in multimode bosonic systems

Superconducting cavities offer a hardware-efficient platform for quantum information processing. Controlling such bosonic modes requires nonlinear elements, for example, transmon ancillae. While a transmon is coupled to multiple cavities, crosstalk happens – the qubit frequency is susceptible to one of the cavity’s state and thus influence the control on other systems. To mitigate such coherent errors, we employ “quantum optimal control” to engineer ancilla pulses that are robust to the frequency shifts. In quantum optimal control, we adjust the envelope of the pulse to achieve different target. Through numerical simulations, we find that our approach markedly suppresses crosstalk errors, outperforming conventional ancilla control methods by orders of magnitude. These results provide guidance for experimentally achieving high-fidelity multimode operations and pave the way for developing high-performance bosonic quantum information processors.

The paper can be found here.