DocumentCode :
1039669
Title :
Flux penetration and surface losses in niobium
Author :
Buchhold, Theodor A. ; Rhodenizer, Richard L.
Author_Institution :
General Electric Corporate Research and Development, Schenectady, NY, USA
Volume :
5
Issue :
3
fYear :
1969
fDate :
9/1/1969 12:00:00 AM
Firstpage :
429
Lastpage :
433
Abstract :
Measurements made on cylindrical niobium samples with test coils in ac magnetic fields of 290 Hz frequency have shown that the superconducting penetration depth λ can be expressed as 
, where λ0 is the penetration depth at zero field and 
is the surface field. In the region of 
to 1300 gauss, λ can be approximated as 
, where 
Å, 
Å/G4. The voltage waveforms from the test coils displayed on an oscilloscope showed good agreement with predicted curves based on this penetration depth. From the voltage signals surface losses could be determined. Loss measurements made on cylinders of niobium with cold worked surfaces gave surprising results. The measured losses were low if the sample was cooled to the measuring temperature quickly, but the losses could be several hundred times higher if the cooling rate was slow. After the sample was annealed, the losses were low and independent of the cooling rate. Data is also given for loss measurements at various temperatures.
, where λ is the surface field. In the region of to 1300 gauss, λ can be approximated as , where Å, Å/G4. The voltage waveforms from the test coils displayed on an oscilloscope showed good agreement with predicted curves based on this penetration depth. From the voltage signals surface losses could be determined. Loss measurements made on cylinders of niobium with cold worked surfaces gave surprising results. The measured losses were low if the sample was cooled to the measuring temperature quickly, but the losses could be several hundred times higher if the cooling rate was slow. After the sample was annealed, the losses were low and independent of the cooling rate. Data is also given for loss measurements at various temperatures.Keywords :
Niobium; Niobium alloys; Cooling; Frequency measurement; Gaussian approximation; Loss measurement; Magnetic field measurement; Niobium; Superconducting coils; Temperature measurement; Testing; Voltage;
fLanguage :
English
Journal_Title :
Magnetics, IEEE Transactions on
Publisher :
ieee
ISSN :
0018-9464
Type :
jour
DOI :
10.1109/TMAG.1969.1066463
Filename :
1066463
Link To Document :
