Time-optimal performance of Josephson charge qubits: A process tomography approach

Abstract

A process tomography based optimization scheme for open quantum systems is used to determine the performance limits of Josephson charge qubits within current experimental means. The qubit is modeled microscopically as an open quantum system taking into account state leakage, as well as environment-induced dephasing based on experimental noise spectra. Within time-optimal control theory, we show that the competing requirements for suppression of state leakage and dephasing can be met by an external control of the effective qubit-environment interaction, yielding minimal gate fidelity losses of around $\ensuremath{\Delta}F\ensuremath{\approx}{10}^{\ensuremath{-}3}$ under typical experimental conditions.