Magnetometry and neutron scattering have been used to study the magnetic properties of pressure-graded Co/Pd multilayers. The grading of the multilayer structure was done by varying the deposition pressure during sputtering of the samples. Magnetic depth profiling by polarized neutron reflectometry directly shows that for pressure-graded samples, the magnetization changes significantly from one pressure region to the next, while control samples sputtered at uniform pressure exhibit essentially uniform magnetic depth profiles. Complementary magnetometry results suggest that the observed graded magnetic profiles are due in part to a decrease in saturation magnetization for regions deposited at progressively higher pressure. Increased deposition pressure is shown to increase coercivity, and for graded samples, the absence of discrete steps in the hysteresis loops implies exchange coupling among regions deposited at different pressures.

Topics
Exchange interactions, Magnetic properties, Ferromagnetism, Neutron reflectometry, Thermodynamic states and processes, Magnetic materials, Neutron scattering, Thin films, Depth profiling techniques, Particle beams
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© 2009 American Institute of Physics.
2009
American Institute of Physics
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