Title :
Microwave losses of polycrystalline ferrites at off-resonance field
Author_Institution :
Southwest Inst. of Appl. Magnetics, Sichuan, China
Abstract :
The spin wave manifold (spin wave eigenfrequencies) for the grain-surface-layer is obtained from the procession equation, based on the assumption, that in the grain-surface-layer of the polycrystalline ferrite there exists an induced uniaxial anisotropy field Hu which is caused by the impurities depositing nearby the grain boundary and by the stresses due to lattice mismatching. The top and the bottom of the manifold at various applied magnetic fields are illustrated in comparing with the manifold for the inner grain area. It is concluded that the off-resonance effective linewidth ΔHeff arises from the losses of the spin wave resonance excited on the grain-surface-layers and it is proportional to the volume fraction of grain-surface-layers and sensitive to the grain size and the porosity strongly
Keywords :
ferrites; ferromagnetic resonance; magnetic anisotropy; spin waves; effective linewidth; grain boundary impurity; grain size; grain surface layer; lattice mismatch stress; magnetic field; microwave loss; off-resonance field; polycrystalline ferrite; porosity; procession equation; spin wave eigenfrequency; spin wave manifold; spin wave resonance; uniaxial anisotropy field; Anisotropic magnetoresistance; Equations; Ferrites; Grain boundaries; Grain size; Impurities; Lattices; Magnetic fields; Magnetic resonance; Stress;
Conference_Titel :
Microwave and Millimeter Wave Technology Proceedings, 1998. ICMMT '98. 1998 International Conference on
Conference_Location :
Beijing
Print_ISBN :
0-7803-4308-5
DOI :
10.1109/ICMMT.1998.768388
