Polarized neutron reflectivity of FeCoV/Ti multilayers

Supermirrors based on various multilayer systems such as Ni/Ti and FeCoV/TiN x are used in neutron optical devices. In this paper, we report on investigations carried out in order to understand the influence of interface roughness on the neutron reflectivity. In the case of Ni/Ti mirrors, the measur

We report on the influence of different sputtering conditions on the structural and magnetic properties of FeCoV/Ti multilayers. A combination of magnetically soft and hard layers, separated by nonmagnetic Ti layers, is realized. A series of multilayers with varying Ti layer thicknesses is prepared

Polarized neutron reflectivity (PNR) studies have been performed on granular multilayers [Co 80 Fe 20 (t n )/Al 2 O 3 (3 nm)] m . For a nonpercolating superferromagnetic (SFM) sample (t n ¼ 1.3 nm) no spin-flip (SF) scattering was observed, measured at various points of the hysteresis, confirming th

Some of the best neutron supermirrors currently in production are made of alternating layers of nickel and titanium, with carbon added to the Ni to eliminate preferential growth. Reflectivities of 75-95% in the 0¢-20c range are currently obtained from the Ni/C-Ti system. The Ti Be multilayer system

The depth profiles of the epitaxial Ni 80 Fe 20 (1 1 1)/Ru(0 0 0 1) multilayers were studied by polarized neutron reflectivity and X-ray reflectivity. At the Ru thickness that the anti-ferromagnetic coupling was found, the magnetic moments between two Ni 80 Fe 20 interlayers show a biquadratic coupl