Self-Biased Low Loss Conductor Featured With Skin Effect Suppression for High Quality RF Passives
Magnetics, IEEE Transactions(2012)
摘要
We present experimental data for artificial metaconductors exhibiting skin effect suppression at microwave frequencies. The metaconductor consists of a stack comprising twelve periods of alternating ferromagnetic (Permalloy) and normal metal (Cu) layers. Near the effective antiferromagnetic resonant frequency the average in-plane magnetic permeability of the stack approaches zero, leading to an increase in the skin depth. Compared to a Cu-based device, up to 70% loss reduction has been achieved by a metaconductor based coplanar wave guide at ~ 10 GHz without changing the propagation wavelength. Moreover, unlike conventional magnetic devices, no external magnetic bias is required due to the large magnetic anisotropy present in the ferromagnetic layers.
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关键词
antiferromagnetic materials,conductors (electric),coplanar waveguides,ferromagnetic materials,magnetic anisotropy,magnetic permeability,microwave devices,skin effect,alternating ferromagnetic layer,antiferromagnetic resonant frequency,artificial metaconductor,average in-plane magnetic permeability,coplanar waveguide,high quality rf passive,loss reduction,magnetic device,microwave frequency suppression,permalloy,propagation wavelength,self-biased low loss conductor,skin depth effect suppression,coplanar wave guide,ferromagnetic resonance,magnetic thin film,metamaterial,radio frequency
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