Bicrystal junctions and superconducting quantum interference devices in YBa2Cu3O7 thin films

Josephson junctions and superconducting quantum interference devices (SQUIDs) were made by depositing thin films of YBa2Cu3O7 on bicrystal substrates of Y-ZrO2 and SrTiO3. The critical current density of the junctions at 77 K could be adjusted from 100 to 106 A/cm2 by selecting bicrystals with misor...

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Published in:Journal of applied physics 1994-06, Vol.75 (12), p.7972-7977
Main Authors: Nilsson, P. Å., Ivanov, Z. G., Olsson, H. K., Winkler, D., Claeson, T., Stepantsov, E. A., Tzalenchuk, A. Ya
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cited_by cdi_FETCH-LOGICAL-c291t-8a7ff59a71dd9b03ed795f82f9f9916629bc839512298a4d5667c51eacebebd03
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container_end_page 7977
container_issue 12
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container_title Journal of applied physics
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creator Nilsson, P. Å.
Ivanov, Z. G.
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description Josephson junctions and superconducting quantum interference devices (SQUIDs) were made by depositing thin films of YBa2Cu3O7 on bicrystal substrates of Y-ZrO2 and SrTiO3. The critical current density of the junctions at 77 K could be adjusted from 100 to 106 A/cm2 by selecting bicrystals with misorientation angles θ from 45° to 0°. Current-voltage curves from junctions with θ≳22° followed the resistively shunted junction model with noise rounding close to the transition temperature. The response of the critical current to magnetic fields was Fraunhofer-like and the width (w) dependence was 1/w2 due to flux focusing effects. Shapiro steps under microwave radiation were observed. SQUIDs based on these junctions had energy resolutions at 77 K down to 8.6×10−30 J/Hz and a 10 Hz flux noise level down to 1.5×10−9 Φ20/Hz at 85 K. A SQUID of the Ketchen design with a flux focusing washer had a magnetic field sensitivity of 15 pT/√Hz at 77 K. The temperature dependence of the voltage modulation depth close to TC was examined and found to be in agreement with theory [K. Enpuku, Y. Shimomura, and T. Kisu, J. Appl. Phys. 73, 7929 (1993)].
doi_str_mv 10.1063/1.356559
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title Bicrystal junctions and superconducting quantum interference devices in YBa2Cu3O7 thin films
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