Probing Qubit Memory Errors at the Part-per-Million Level

Abstract

Robust qubit memory is essential for quantum computing, both for near-term devices operating without error correction, and for the long-term goal of a fault-tolerant processor. We directly measure the memory error εm for a 43Ca+ trapped-ion qubit in the small-error regime and find εm<10-4 for storage times t50\,ms. This exceeds gate or measurement times by three orders of magnitude. Using randomized benchmarking, at t=1\,ms we measure εm=1.2(7)×10-6, around ten times smaller than that extrapolated from the T2 time, and limited by instability of the atomic clock reference used to benchmark the qubit.