Title :
Characterization of YBCO/Au/YBCO resistors for HTS Josephson noise thermometry
Author :
Hao, Ling ; Peden, Derek A. ; Macfarlane, John C. ; Gallop, John C.
Author_Institution :
Nat. Phys. Lab., Teddington, UK
fDate :
4/1/2001 12:00:00 AM
Abstract :
It has been proposed that an absolute thermometer based on the linewidth broadening of the Josephson oscillation could be realized in the temperature range 10 K to 50 K with the use of high-temperature-superconducting resistive superconducting quantum interference devices (HTS R-SQUIDs). Although this technique has been successfully demonstrated with LTS devices in the temperature region below 1 K, there are unresolved problems which have so far prevented its translation to higher operating temperatures. A crucial component of a resistive SQUID noise thermometer is the shunt resistor, which is required to have a value <0.1 mΩ. The often excessive and unpredictable contact resistance between normal metal and HTS superconducting thin films has up to now hindered the successful implementation of an HTS resistive SQUID. YBCO-Au-YBCO shunt resistors with suitable resistance values of ~20 μΩ have recently been manufactured and their characteristics under cryogenic operating conditions have been measured using the Josephson frequency-voltage relationship
Keywords :
Josephson effect; SQUIDs; barium compounds; contact resistance; gold; high-temperature superconductors; resistance thermometers; yttrium compounds; 10 to 50 K; HTS Josephson noise thermometry; Josephson oscillation; YBa2Cu3O7-Au-YBa2Cu 3O7; absolute thermometer; contact resistance; cryogenic operating conditions; frequency-voltage relationship; high-temperature-superconducting resistive SQUIDs; linewidth broadening; shunt resistor; Contact resistance; Gold; High temperature superconductors; Interference; Resistors; SQUIDs; Superconducting device noise; Superconducting devices; Temperature distribution; Yttrium barium copper oxide;
Journal_Title :
Instrumentation and Measurement, IEEE Transactions on
