Half-integer Shapiro-steps in superconducting qubit with a $π$-Josephson junction
Abstract: A superconducting quantum interference device (SQUID) comprising 0- and $\pi$-Josephson junctions (JJs), called $\pi$-SQUID, is studied by the resistively shunted junction model. The $\pi$-SQUID shows half-integer Shapiro-steps (SS) under microwave irradiation at the voltage $V$ = $(\hbar/2e)\Omega (n/2)$, with angular frequency $\Omega$ and half-integer $n$/2 in addition to integer $n$. We show that the $\pi$-SQUID can be a $\pi$-qubit with spontaneous loop currents by which the half-integer SS are induced. Making the 0- and $\pi$-JJs equivalent is a key for the half-integer SS and realizing the $\pi$-qubit.
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