TY - JOUR
T1 - Calculation of rf magnetic permeability of nearly ferroelectric superconductors in a parallel field
AU - Wu, Chien Jang
AU - Lee, Hsiu Li
AU - Chuang, Wei Ching
N1 - Funding Information:
C.-J. Wu acknowledges the financial support from the National Science Council of the Republic of China under Grant No. NSC-95-2112-M-390-003-MY2.
PY - 2007/3/15
Y1 - 2007/3/15
N2 - The complex rf magnetic permeability over(μ, ̃) = μ′ - j μ″ of nearly ferroelectric superconductors in the Meissner-like response is theoretically investigated based on the electrodynamics of the nearly ferroelectric superconductors. The complex rf magnetic permeability is calculated and analyzed for a superconducting slab in a parallel applied magnetic field. It is found that the peak of the loss curve (curve of imaginary part, μ″) occurs at some critical thickness, which is frequency-dependent, decreasing as the frequency is increased. In addition, the magnitude in peak is strongly depressed as the frequency is increased. This critical thickness is also dependent on the damping factor appearing in the dielectric function, increasing with decreasing the damping coefficient. As for the frequency-dependent μ″ we find that it increases with increasing the frequency, showing a strong dispersion in the imaginary part of the complex permeability.
AB - The complex rf magnetic permeability over(μ, ̃) = μ′ - j μ″ of nearly ferroelectric superconductors in the Meissner-like response is theoretically investigated based on the electrodynamics of the nearly ferroelectric superconductors. The complex rf magnetic permeability is calculated and analyzed for a superconducting slab in a parallel applied magnetic field. It is found that the peak of the loss curve (curve of imaginary part, μ″) occurs at some critical thickness, which is frequency-dependent, decreasing as the frequency is increased. In addition, the magnitude in peak is strongly depressed as the frequency is increased. This critical thickness is also dependent on the damping factor appearing in the dielectric function, increasing with decreasing the damping coefficient. As for the frequency-dependent μ″ we find that it increases with increasing the frequency, showing a strong dispersion in the imaginary part of the complex permeability.
KW - Ferroelectric
KW - Magnetic permeability
KW - Superconductor
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U2 - 10.1016/j.physc.2006.12.014
DO - 10.1016/j.physc.2006.12.014
M3 - Article
AN - SCOPUS:33847250972
SN - 0921-4534
VL - 453
SP - 70
EP - 75
JO - Physica C: Superconductivity and its applications
JF - Physica C: Superconductivity and its applications
IS - 1-2
ER -