Title :
Magneto-optical imaging studies of flux propagation in ultra-pure and carbon-doped MgB2 thin films
Author :
Ye, Zuxin ; Li, Qiang ; Hu, Yufeng ; Pogrebnyakov, A.V. ; Cui, Y. ; Xi, X.X. ; Redwing, J.M. ; Li, Qi
Author_Institution :
Brookhaven Nat. Lab., Upton, NY, USA
fDate :
6/1/2005 12:00:00 AM
Abstract :
The mixed state in c-axis oriented ultra-pure MgB2 thin films and carbon-doped MgB2 thin films produced by hybrid physical-chemical vapor deposition was studied using magneto-optical imaging (MOI) technique. In the ultra-pure MgB2 films, a regular magnetic flux penetration pattern was observed, as expected from the Bean critical state model. This is in striking contrast to earlier MOI observations of MgB2 films made by pulse laser deposition, where dentritic flux jumps were usually abundant at temperature below 10 K. In our carbon-doped MgB2 thin films, similar dentritic flux jumps were also observed at low temperature and low applied magnetic field. It is evident that the dendritic flux jumps or stability of the film is strongly influenced by the material parameters of the films, rather than inherent in all MgB2 thin films.
Keywords :
Bean model; CVD coatings; carbon; doping; flux flow; magnesium compounds; magneto-optical effects; superconducting thin films; Bean critical state model; MgB2:C; carbon doped thin films; dentritic flux jump; flux propagation; hybrid physical-chemical vapor deposition; magnetic flux; magneto-optical imaging; superconductor; ultra pure thin films; Bean model; Chemical vapor deposition; Laser modes; Magnetic fields; Magnetic films; Magnetic flux; Optical pulses; Pulsed laser deposition; Sputtering; Temperature; Flux jump; magneto optical; superconductor;
Journal_Title :
Applied Superconductivity, IEEE Transactions on
DOI :
10.1109/TASC.2005.848850
