TY - JOUR
T1 - Angular dependence of magnetic relaxation and remanent magnetization on YBCO/PBCO super-lattice and YBCO thin film
AU - Wu, J. M.
AU - Horng, H. E.
AU - Yang, H. C.
AU - Wang, L. M.
PY - 1996
Y1 - 1996
N2 - We measured the angular dependence of magnetic relaxation and remanent magnetization at various temperatures on a YBCO/PBCO superlattice and a YBCO thin film to investigate the fluctuation of the anisotropy of flux pinning. The measuring temperatures were from 20 K to Tc,onset and the applied magnetic field was 1000 Oe. The angles between the applied magnetic field and the c-axis of superlattices were 0°, 30°, 45°, 60°,.... In the measurement of the angular dependence of remanent magnetization, the angles between the magnetometer and c-axis were from -90° to 90°. The Anderson-Kim model was introduced to derive the pinning potential. It was observed that only the component of applied magnetic field along c-axis of the samples contributed to flux pinning and we also obtained the relation, Mθ = M∥ cosθ, where M∥ is the magnetization along the c-axis. The causes are discussed.
AB - We measured the angular dependence of magnetic relaxation and remanent magnetization at various temperatures on a YBCO/PBCO superlattice and a YBCO thin film to investigate the fluctuation of the anisotropy of flux pinning. The measuring temperatures were from 20 K to Tc,onset and the applied magnetic field was 1000 Oe. The angles between the applied magnetic field and the c-axis of superlattices were 0°, 30°, 45°, 60°,.... In the measurement of the angular dependence of remanent magnetization, the angles between the magnetometer and c-axis were from -90° to 90°. The Anderson-Kim model was introduced to derive the pinning potential. It was observed that only the component of applied magnetic field along c-axis of the samples contributed to flux pinning and we also obtained the relation, Mθ = M∥ cosθ, where M∥ is the magnetization along the c-axis. The causes are discussed.
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M3 - Article
AN - SCOPUS:24644516778
SN - 0577-9073
VL - 34
SP - 670
EP - 674
JO - Chinese Journal of Physics
JF - Chinese Journal of Physics
IS - 2 II
ER -