A long-lived memory qubit on a low-decoherence quantum bus

Abstract

We demonstrate long-lived coherence in internal hyperfine states of a single 43 trapped-ion qubit [T2=1.2(2)], and in external motional states of a single 40 trapped-ion qubit [T2'=0.18(4)], in the same apparatus. The motional decoherence rate is consistent with the heating rate, which was measured to be 3(1) quanta/sec. Long coherence times in the external motional states are essential for performing high-fidelity quantum logic gates between trapped-ion qubits. The internal-state T2 time that we observe in 43, which has not previously been used as a trapped-ion qubit, is about one thousand times longer than that of physical qubits based on 40 ions. Using a single spin-echo pulse to ``re-phase'' the internal state, we can detect no decoherence after 1, implying an effective coherence time T2 SE 45. This compares with timescales in this trap for single-qubit operations of 1, and for two-qubit operations of 10.