Magnetic flux distribution, quasiparticle spectroscopy, and quality factors in Nb films for superconducting qubits

Abstract

Niobium is a practical material platform for superconducting microwave circuits; however, device-level performance can vary significantly depending on film growth and processing conditions. We compare three epitaxial Nb films grown on c-plane sapphire substrates under nominally identical conditions, except for the deposition temperature. To correlate internal quality factors, Q i, with material properties, we combine magneto-optical imaging of magnetic flux distribution with quasiparticle spectroscopy via measurements of the London penetration depth, λ(T). In the low-Q i film, there is a lesser ability to screen the magnetic field and an irregular temperature variation of λ(T), implying the existence of localized in-gap states. High Q i films show the opposite trend. We conclude that our measurements provide an efficient method for characterizing and optimizing superconducting films for quantum informatics applications.

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