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Eliminating Leakage Errors in Hyperfine Qubits

Published 31 Dec 2019 in quant-ph | (1912.13131v2)

Abstract: Population leakage outside the qubit subspace presents a particularly harmful source of error that cannot be handled by standard error correction methods. Using a trapped ${171}$Yb$+$ ion, we demonstrate an optical pumping scheme to suppress leakage errors in atomic hyperfine qubits. The selection rules and narrow linewidth of a quadrupole transition are used to selectively pump population out of leakage states and back into the qubit subspace. Each pumping cycle reduces the leakage population by a factor of $\sim3$, allowing for an exponential suppression in the number of cycles. We use interleaved randomized benchmarking on the qubit subspace to show that this pumping procedure has negligible side-effects on un-leaked qubits, bounding the induced qubit memory error by $\leq2.0(8)\times10{-5}$ per cycle, and qubit population decay to $\leq1.4(3)\times10{-7}$ per cycle. These results clear a major obstacle for implementations of quantum error correction and error mitigation protocols.

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