Analysis of measurement errors for a superconducting phase qubit
Abstract
We analyze several mechanisms leading to errors in a course of measurement of a superconducting flux-biased phase qubit. Insufficiently long measurement pulse may lead to nonadiabatic transitions between qubit states |1> and |0>, before tunneling through a reduced barrier is supposed to distinguish the qubit states. Finite (though large) ratio of tunneling rates for these states leads to incomplete discrimination between |1> and |0>. Insufficiently fast energy relaxation after the tunneling of state |1> may cause the repopulation of the quantum well in which only the state |0> is supposed to remain. We analyze these types of measurement errors using analytical approaches as well as numerical solution of the time-dependent Schr\"odinger equation.
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