Flip-Chip-Based Fast Inductive Parity Readout of a Planar Superconducting Island
M. Hinderling,
S.C. ten Kate,
D.Z. Haxell
et al.
Abstract:The properties of superconducting devices depend sensitively on the parity (even or odd) of the quasiparticles that they contain. Encoding quantum information in the parity degree of freedom is central in several emerging solid-state qubit architectures, including in hybrid superconductor-semiconductor devices. In the latter case, accurate, nondestructive, and time-resolved parity measurements are a challenging issue. Here, we report on control and real-time parity measurement in a superconducting island embed… Show more
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