John M. Martinis, M. Ansmann, J. Aumentado
Published 2009-04-14, updated 2009-08-06Version 2
We calculate the energy decay rate of Josephson qubits and superconducting resonators from non-equilibrium quasiparticles. The decay rates from experiments are shown to be consistent with predictions based on a prior measurement of the quasiparticle density n_qp = 10/um^3, which suggests that non-equilibrium quasiparticles are an important decoherence source for Josephson qubits. Calculations of the energy-decay and diffusion of quasiparticles also indicate that prior engineered gap and trap structures, which reduce the density of quasiparticles, should be redesigned to improve their efficacy. This model also explains a striking feature in Josephson qubits and resonators - a small reduction in decay rate with increasing temperature.
Comments: 4 pages, 3 figures, a supplementary calculation is at arXiv:0904.2035; Accepted for publication in PRL
Dissipation in Josephson qubits
Decoherence and 1/f noise in Josephson qubits
Relaxation of Josephson qubits due to strong coupling to two-level systems
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