Fast and Unconditional All-Microwave Reset of a Superconducting Qubit

Abstract

Active qubit reset is a key operation in many quantum algorithms, and particularly in error correction codes. Here, we experimentally demonstrate a reset scheme of a three level transmon artificial atom coupled to a large bandwidth resonator. The reset protocol uses a microwave-induced interaction between the |f,0 and |g,1 states of the coupled transmon-resonator system, with |g and |f denoting the ground and second excited states of the transmon, and |0 and |1 the photon Fock states of the resonator. We characterize the reset process and demonstrate reinitialization of the transmon-resonator system to its ground state with 0.2\% residual excitation in less than 500 \, ns. Our protocol is of practical interest as it has no requirements on the architecture, beyond those for fast and efficient single-shot readout of the transmon, and does not require feedback.