Title :
Switching properties of a regular two-dimensional array of small uniaxial particles
Author :
Pardavi-Horvath, M.
Author_Institution :
Inst. for Magnetics Res., George Washington Univ., Washington, DC, USA
fDate :
9/1/1996 12:00:00 AM
Abstract :
Switching properties of a regular square lattice of 40×40×3 μm3 highly uniaxial, single domain magnetic garnet pixels have been measured magnetooptically. “Up” and “down” switching fields, coercivities and interaction fields were measured on an assembly of hundreds of particles. Statistical analysis of the data shows the relationship between major loop parameters and mean values of the distributions. Local demagnetizing tensor elements were calculated for the non-ellipsoidal geometry and the interaction fields from different neighbors were computed. The importance of the effect of the geometry, shape and size of particles on the switching properties is demonstrated. The agreement with experimental values is very good. The simplicity of this model system is attractive for studying artificially structured 2-D arrays of small particles
Keywords :
coercive force; demagnetisation; garnets; magnetic domains; magnetic hysteresis; magnetic particles; magnetic switching; magneto-optical effects; particle size; statistical analysis; coercivities; distribution mean values; interaction fields; local demagnetizing tensor elements; major loop parameters; nonellipsoidal geometry; regular square lattice; regular two-dimensional array; single domain magnetic garnet pixels; small uniaxial particles; statistical analysis; switching fields; switching properties; Assembly; Coercive force; Garnets; Lattices; Magnetic domains; Magnetic field measurement; Magnetic properties; Magnetic switching; Magnetooptic effects; Particle measurements;
Journal_Title :
Magnetics, IEEE Transactions on
