Effect of unidirectional anisotropy on the ferromagnetic resonance in ferrite nanoparticles

1 November 1999

journal article
research article
Published by American Physical Society (APS) in Physical Review B

Vol. 60 (17) , 11902-11905
https://doi.org/10.1103/physrevb.60.11902

Abstract

Magnetization oscillations in a spherical ferromagnetic particle with unidirectional surface and uniaxial bulk anisotropies are considered. Due to the surface spin pinning, the uniform Larmor precession is replaced by a spatially modulated mode. The corresponding dispersion equation is solved in the weak pinning limit. The result shows that in the particle FMR spectrum, the surface effect is equivalent to the presence of an additional intrinsic size-dependent field coaligned with the constant magnetizing one. The experimental evidence obtained on maghemite ferrofluids supports this conclusion.

Keywords

This publication has 22 references indexed in Scilit:

Ferromagnetic resonance studies of NiO-coupled thin films of ${Ni}_{80} {Fe}_{20}$
Physical Review B, 1998
Theory of the Magnetization Reversal of Ultrathin Fe Films on a Cr Substrate
Physical Review Letters, 1998
A spin-wave resonance study on reentrant Ni77Mn23 thin films
Journal of Magnetism and Magnetic Materials, 1996
Rotation of anisotropy in a ${Ni}_{76}$ ${Mn}_{24}$ spin-glass alloy
Physical Review B, 1994
Dzyaloshinsky-Moriya anisotropy in reentrant alloys
Physical Review B, 1986
Magnetic resonance in amorphous FexNi80-xP14B6
Journal of Magnetism and Magnetic Materials, 1984
Microwave properties of magnetic garnet thin films
Thin Solid Films, 1984
Competing Ferromagnetic and Spin-Glass Order in a $Au Fe$ Alloy
Physical Review Letters, 1983
Exchange Anisotropy—A Review
Journal of Applied Physics, 1962
New Magnetic Anisotropy
Physical Review B, 1957