Structural and magnetic properties of the Ti/Fe multilayers

Abstract: The structure and magnetic properties of the rf-sputtered Fe/Ti multilayers with the fixed Ti-layer thicknesses (series 1: tTi=1 nm and series 2: tTi=2 nm) and the variable Fe-layer thicknesses (1 nm⩽tFe⩽6 nm) have been studied by the high-angle x-ray diffraction, transmission electron microscopy, conversion electron Mössbauer spectrometry and vibrating sample magnetometer. The results show that Fe layers with thicknesses less than 1 nm are alloyed forming an amorphous TiFe2 phase. As the Fe-layer thickness in… Show more

“…The positive value of K S reflects a perpendicular magnetic anisotropy, while the negative value of K V reflects the in-plane anisotropy of the volume. These values of K S and jK V j are larger than those deduced for (Fe/Ti) and (Fe/V) multilayers [4,5] at 300 K.…”

“…The RHEED patterns were also recorded during the deposition of two multilayers (Fe 0.5 nm/Y 0.5 nm) 5 and (Fe 1.0 nm/Y 1.0 nm) 5 . For other samples, the Fe layer thickness t Fe is varying between 0.5 and 6.0 nm while the Y layer thickness t Y is fixed to 1.0 nm.…”

“…The positive value of K S then has been attributed to the Fe surface because in the vicinity of the Fermi level the OPS symmetry states are dominant in comparison to those of the in-plane states (IPS). This arguments were used to interpret the perpendicular magnetic anisotropy observed in (Fe/Ti) multilayers [5].…”

“…The spin orientation in the interfaces has been described in terms of the electronic origin for the multilayers Fe/X where X is Sc, Ti, V, Y, Lu, y A planar magnetic anisotropy is predicted [3] and has been observed in some (Fe/Y) systems [4]. Experimentally it has been observed a random spin orientation at room temperature in Fe/Ti [5] and in Fe/V [6], which was attributed to the topmost of the Fe layers, but not to the Fe-V alloy at the interface [6].…”

Structural and magnetic study of MBE-UHV evaporated (Fe/Y) multilayers

“…The positive value of K S reflects a perpendicular magnetic anisotropy, while the negative value of K V reflects the in-plane anisotropy of the volume. These values of K S and jK V j are larger than those deduced for (Fe/Ti) and (Fe/V) multilayers [4,5] at 300 K.…”

“…The RHEED patterns were also recorded during the deposition of two multilayers (Fe 0.5 nm/Y 0.5 nm) 5 and (Fe 1.0 nm/Y 1.0 nm) 5 . For other samples, the Fe layer thickness t Fe is varying between 0.5 and 6.0 nm while the Y layer thickness t Y is fixed to 1.0 nm.…”

“…The positive value of K S then has been attributed to the Fe surface because in the vicinity of the Fermi level the OPS symmetry states are dominant in comparison to those of the in-plane states (IPS). This arguments were used to interpret the perpendicular magnetic anisotropy observed in (Fe/Ti) multilayers [5].…”

“…The spin orientation in the interfaces has been described in terms of the electronic origin for the multilayers Fe/X where X is Sc, Ti, V, Y, Lu, y A planar magnetic anisotropy is predicted [3] and has been observed in some (Fe/Y) systems [4]. Experimentally it has been observed a random spin orientation at room temperature in Fe/Ti [5] and in Fe/V [6], which was attributed to the topmost of the Fe layers, but not to the Fe-V alloy at the interface [6].…”

Structural and magnetic study of MBE-UHV evaporated (Fe/Y) multilayers

“…and the structural parameters of the precipitates were deduced from magnetization curves and Mössbauer spectra. In addition, Mössbauer spectroscopy has made possible a link between structural and magnetic observations~Eymery et al, 1983Richomme et al, 1996;Fnidiki et al, 1998;Lemoine et al, 1999;Juraszek et al, 2000;Duc et al, 2002!. Those magnetic analyses revealed the presence of fine body-centered cubic a-Fe precipitates with a radius slightly larger than 1 nm. In Martins and Missel~1999!, some spinodally decomposed Fe,Ni!-rich zones were observed by high-resolution transmission electron microscopy~HRTEM!…”

Nanometer Scale Tomographic Investigation of Fine Scale Precipitates in a CuFeNi Granular System by Three-Dimensional Field Ion Microscopy

X-Ray Magnetic Dichroism