Title :
A simple technique for measuring the transition temperature at microwave frequencies
Author :
Pond, J.M. ; Allen, L.H. ; Cukauskas, E.J.
Author_Institution :
Naval Res. Lab., Washington, DC, USA
fDate :
6/1/1997 12:00:00 AM
Abstract :
A technique is described which enables contactless measurements at microwave frequencies of the superconducting transition. The approach employs an electrically small microwave loop antenna to sense the change in the reflected microwave signal as flux is expelled, due to the Meissner effect, from the superconductor. Advantages of this technique include the ability to measure small areas of a superconducting thin film after photolithographic patterning into a device geometry. This approach is very sensitive in the frequency range from 0.05 GHz to 5 GHz and for some YBCO films a dependence of the transition temperature width on frequency has been observed. Such frequency-dependent signatures may provide valuable information regarding improvements in film deposition and device processing.
Keywords :
Meissner effect; barium compounds; high-temperature superconductors; loop antennas; microwave antennas; microwave measurement; microwave reflectometry; photolithography; superconducting thin films; superconducting transition temperature; temperature measurement; yttrium compounds; 0.05 to 5 GHz; Meissner effect; YBCO films; YBaCuO; contactless measurements; device geometry; device processing; electrically small microwave loop antenna; film deposition; flux; frequency dependence; frequency range; frequency-dependent signatures; microwave frequencies; photolithographic patterning; reflected microwave signal; simple technique; small areas; superconducting thin film; superconducting transition; transition temperature measurement; Antenna measurements; Contacts; Frequency measurement; Microwave antennas; Microwave frequencies; Microwave measurements; Superconducting microwave devices; Superconducting transition temperature; Temperature measurement; Temperature sensors;
Journal_Title :
Applied Superconductivity, IEEE Transactions on
