Sorop, T.G., Untiedt, Carlos, Luis, F., Kröll, M., Raşa, M., Jongh, L.J. de
Magnetization reversal of ferromagnetic nanowires studied by magnetic force microscopy
SOROP, T.G., et al. “Magnetization reversal of ferromagnetic nanowires studied by magnetic force microscopy”. Physical Review B. Vol. 67, No. 1 (2003). ISSN 1098-0121, pp. 014402-1/8
URI: http://hdl.handle.net/10045/25195
DOI: 10.1103/PhysRevB.67.014402
ISSN: 1098-0121 (Print)
Abstract: 
The magnetization reversal of two-dimensional arrays of parallel ferromagnetic Fe nanowires embedded in nanoporous alumina templates has been studied. By combining bulk magnetization measurements (superconducting quantum interference device magnetometry) with field-dependent magnetic force microscopy (MFM), we have been able to decompose the macroscopic hysteresis loop in terms of the irreversible magnetic responses of individual nanowires. The latter are found to behave as monodomain ferromagnetic needles, with hysteresis loops displaced (asymmetric) as a consequence of the strong dipolar interactions between them. The application of field-dependent MFM provides a microscopic method to obtain the hysteresis curve of the array, by simply registering the fraction of up and down magnetized wires as a function of applied field. The observed deviations from the rectangular shape of the macroscopic hysteresis loop of the array can be ascribed to the spatial variation of the dipolar field through the inhomogeneously filled membrane. The system studied proves to be an excellent example of the two-dimensional classical Preisach model, well known from the field of hysteresis modeling and micromagnetism.
Keywords:Magnetization reversal, Ferromagnetic nanowires, Magnetic force microscopy
American Physical Society
info:eu-repo/semantics/article