Increased Transition Temperature in In Situ Coevaporated YBa2Cu3O7-δ Thin Films by Low Temperature Post-Annealing

S. J. Berkowitz; E. I. DeObaldia; K. F. Ludwig; W. J. Skocpol; P. M. Mankiewich; Ronald H. Ono; James A. Beall; Leila R. Vale; David A. Rudman; M. L. O'Malley; L. M. Drabeck; P. A. Polakos

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PUBLICATIONS

Increased Transition Temperature in In Situ Coevaporated YBa₂Cu₃O_7-δ Thin Films by Low Temperature Post-Annealing

Published

September 1, 1994

Author(s)

S. J. Berkowitz, E. I. DeObaldia, K. F. Ludwig, W. J. Skocpol, P. M. Mankiewich, Ronald H. Ono, James A. Beall, Leila R. Vale, David A. Rudman, M. L. O'Malley, L. M. Drabeck, P. A. Polakos

Citation

Applied Physics Letters

Volume

Issue

Pub Type

Journals

Sensors

Citation

Berkowitz, S. , DeObaldia, E. , Ludwig, K. , Skocpol, W. , Mankiewich, P. , Ono, R. , Beall, J. , Vale, L. , Rudman, D. , O'Malley, M. , Drabeck, L. and Polakos, P. (1994), Increased Transition Temperature in In Situ Coevaporated YBa2Cu3O7-δ Thin Films by Low Temperature Post-Annealing, Applied Physics Letters (Accessed May 5, 2024)

Created August 31, 1994, Updated October 12, 2021

Increased Transition Temperature in In Situ Coevaporated YBa2Cu3O7-δ Thin Films by Low Temperature Post-Annealing

Author(s)

Citation

Additional citation formats

Increased Transition Temperature in In Situ Coevaporated YBa₂Cu₃O_7-δ Thin Films by Low Temperature Post-Annealing