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Paper detail

Long-lived transmons with different electrode layouts

To test the contribution of non-equilibrium quasiparticles to qubit relaxation, we have repeatedly measured the relaxation time T_1 in Al/AlOx/Al transmons with electrodes that have different superconducting gaps. In one device, the first layer electrode was formed by thermal evaporation of nominally pure Al, while the counter-electrode was formed by deposition of oxygen-doped Al, which gave a larger gap value. The relaxation time was long, but showed large fluctuations, with T_1 varying between about 100 and 300 μs at 20 mK. In other transmons, we formed the first layer electrode by deposition of oxygen-doped Al, while the counter-electrode was formed by deposition of nominally pure Al. These devices showed a similar range of large and fluctuating T_1 values, with maximum T_1 values over 200 μs. The relaxation time of the devices did not depend strongly on temperature below about 150 mK, but dropped rapidly above this due to thermally-generated quasiparticles.

preprint2023arXivOpen access
Kungang LiS. K. DuttaZachary SteffenDylan PoppertShahriar KeshvariJeffery BowserB. S. PalmerC. J. LobbF. C. Wellstood
quant-ph
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Kungang LiS. K. DuttaZachary SteffenDylan PoppertShahriar KeshvariJeffery BowserB. S. PalmerC. J. LobbF. C. Wellstood

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