NbO Nanolithography with an Atomic Force Microscope
ORAL
Abstract
The Josephson junctions (JJs) in superconducting qubits are commonly made out of an AlOx insulator sandwiched between superconducting Al layers. However, Al/AlOx/Al JJs host two-level system losses at their metal-oxide interfaces. All-oxide JJs are a promising solution to this problem. One candidate oxide system is NbO, a stoichiometric oxide known to exhibit bulk superconductivity [1]. In order to pattern the material and test devices, a simple nanolithography technique is needed. We investigate local oxidation as a technique to etch thin-film NbO. To do this, we use a conducting atomic force microscope (C-AFM) for rapid prototyping, enabling development of a new JJ architecture.
[1] Okaz, A. M. & Keesom, P. H. Specific heat and magnetization of the superconducting monoxides: NbO and TiO. Phys. Rev. B 12, 4917–4928 (1975).
[1] Okaz, A. M. & Keesom, P. H. Specific heat and magnetization of the superconducting monoxides: NbO and TiO. Phys. Rev. B 12, 4917–4928 (1975).
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Presenters
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Sivanjali E Williams
Harvey Mudd College
Authors
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Sivanjali E Williams
Harvey Mudd College
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Yanni Cho
California Institute of Technology
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Sandra E Glotzer
Caltech, California Institute of Technology
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Jeong Rae Kim
Caltech
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Nicholas P Breznay
Harvey Mudd College
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Joseph L Falson
Caltech