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Novel fabrication methods for submicrometer Josephson junction qubits

Novel fabrication methods for submicrometer Josephson junction qubits
Novel fabrication methods for submicrometer Josephson junction qubits
Novel processes for the fabrication of mesoscopic Josephson junction qubits have been developed, based on superconducting Al/Al2O3/Al tunnel junctions. These are fabricated by electron beam lithography using single-layer and multi-layer resists, and standard processes that are compatible with conventional CMOS processing. The new single-layer resist process is found to have significant advantages over conventional fabrication methods using suspended tri-layer shadow masks.
289-293
Potts, A.
a3c70ecc-a6ad-4a82-b871-0303479b1020
Routley, P.R.
f4d380d9-54c2-4e4d-8eb8-d8ce26bca987
Parker, Gregory J.
edf88b88-ba05-48a5-8ae4-d6d6aa984364
de Groot, Peter A. J.
98c21141-cf90-4e5c-8f2b-d2aae8efb84d
Potts, A.
a3c70ecc-a6ad-4a82-b871-0303479b1020
Routley, P.R.
f4d380d9-54c2-4e4d-8eb8-d8ce26bca987
Parker, Gregory J.
edf88b88-ba05-48a5-8ae4-d6d6aa984364
de Groot, Peter A. J.
98c21141-cf90-4e5c-8f2b-d2aae8efb84d

Potts, A., Routley, P.R., Parker, Gregory J. and de Groot, Peter A. J. (2001) Novel fabrication methods for submicrometer Josephson junction qubits. Journal of Materials Science: Materials in Electronics, 12 (4-6), 289-293. (doi:10.1023/A:1011279908265).

Record type: Article

Abstract

Novel processes for the fabrication of mesoscopic Josephson junction qubits have been developed, based on superconducting Al/Al2O3/Al tunnel junctions. These are fabricated by electron beam lithography using single-layer and multi-layer resists, and standard processes that are compatible with conventional CMOS processing. The new single-layer resist process is found to have significant advantages over conventional fabrication methods using suspended tri-layer shadow masks.

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Published date: June 2001
Organisations: Nanoelectronics and Nanotechnology
Learn more about Physics & Astronomy research Learn more about Electronics & Computer Science research

Identifiers

Local EPrints ID: 260364
URI: http://eprints.soton.ac.uk/id/eprint/260364
DOI: doi:10.1023/A:1011279908265
PURE UUID: 3f9ea64a-e7ab-4176-8262-27cb5e4ff34b

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Date deposited: 25 Jan 2005
Last modified: 14 Mar 2024 06:37

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Contributors

Author: A. Potts
Author: P.R. Routley
Author: Gregory J. Parker
Author: Peter A. J. de Groot

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