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Superconducting phase qubit based on the Josephson oscillator with strong anharmonicity

arXiv:0908.3937 · doi:10.1103/PhysRevB.80.214535

Abstract

We propose a superconducting phase qubit on the basis of the radio-frequency SQUID with the screening parameter value $β_L = (2π/Φ_0)LI_c \approx 1$, biased by a half flux quantum $Φ_e=Φ_0/2$. Significant anharmonicity ($> 30%$) can be achieved in this system due to the interplay of the cosine Josephson potential and the parabolic magnetic-energy potential that ultimately leads to the quartic polynomial shape of the well. The two lowest eigenstates in this global minimum perfectly suit for the qubit which is insensitive to the charge variable, biased in the optimal point and allows an efficient dispersive readout. Moreover, the transition frequency in this qubit can be tuned within an appreciable range allowing variable qubit-qubit coupling.

5 pages incl. 5 figures