Parity-Protected Superconductor-Semiconductor Qubit

Thorvald Wadum Larsen; M. E. Gershenson; Lucas Casparis; A. Kringhøj; N. J. Pearson; R. P. G. McNeil; F. Kuemmeth; Peter Krogstrup; Karl Petersson; Charles Marcus

Parity-Protected Superconductor-Semiconductor Qubit

Thorvald Wadum Larsen ,
M. E. Gershenson ,
Lucas Casparis ,
A. Kringhøj ,
N. J. Pearson ,
R. P. G. McNeil ,
F. Kuemmeth ,
Peter Krogstrup ,
Karl Petersson ,
Charles Marcus

Physical Review Letters | July 2020 , Vol 125(5): pp. 56801

Coherence of superconducting qubits can be improved by implementing designs that protect the parity of Cooper pairs on superconducting islands. Here, we introduce a parity-protected qubit based on voltage-controlled semiconductor nanowire Josephson junctions, taking advantage of the higher harmonic content in the energy-phase relation of few-channel junctions. A symmetric interferometer formed by two such junctions, gate-tuned into balance and frustrated by a half-quantum of applied flux, yields a $\mathrm{cos}(2\ensuremath{\varphi})$ Josephson element, reflecting coherent transport of pairs of Cooper pairs. We demonstrate that relaxation of the qubit can be suppressed tenfold by tuning into the protected regime.