Article ID Journal Published Year Pages File Type
1786387 Current Applied Physics 2013 4 Pages PDF
Abstract

The unloaded quality factor of the cavity resonator is the ratio between the stored energy of the cavity resonator to the power loses in the cavity resonator. The homemade rectangular cavity resonator in X-band shows higher unloaded quality factor compare with standard cavity resonator in the TE102 mode. Because the inner walls of rectangular cavity resonator are treated through high quality polishing and high purity Au plating. Also the inner walls are made by printed circuit board which has thin Cu foil, two problems such as mechanical vibration and thermal expansion can be solved by minimizing unwanted eddy current. Through the ferromagnetic resonance measurement by using our rectangular cavity resonator, we can be obtained reasonable values of resonance frequency and linewidth by using NiFe thin film. As a result, the Gilbert damping constant from the experimental result is in good agreement with the typical value of damping parameter of the NiFe thin film.

► We designed and made rectangular cavity resonator in the TE102 mode. ► A homemade cavity resonator shows higher QUL compare with standard cavity resonator. ► The inner walls of rectangular cavity resonator are made by printed circuit board. ► We obtained exact value of f0 and ΔH through the FMR measurement for the NiFe film. ► The experimental result of α is in good agreement with the typical value of α.

Related Topics
Physical Sciences and Engineering Physics and Astronomy Condensed Matter Physics
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