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Fabrication and magnetic properties of Co based thin films synthesized by physical vapor deposition under vacuum
Author(s) -
A. Kharmouche
Publication year - 2020
Publication title -
iop conference series. materials science and engineering
Language(s) - English
Resource type - Journals
eISSN - 1757-899X
pISSN - 1757-8981
DOI - 10.1088/1757-899x/839/1/012003
Subject(s) - materials science , crystallite , thin film , magnetic anisotropy , monocrystalline silicon , anisotropy , demagnetizing field , silicon , chemical vapor deposition , diffraction , magnetic field , grain size , film plane , condensed matter physics , composite material , optics , magnetization , nanotechnology , optoelectronics , metallurgy , physics , quantum mechanics
We used thermal heating process, under a pressure of 10 −7 mbar, to fabricate thin films of cobalt on monocrystalline silicon Si (100) substrates. The incident beam strikes the substrates under normal and oblique incidences within a home-made evaporation chamber. The thickness of the deposited films ranges from 18 to 400 nm. Microscopic characterizations of the films are performed with X-ray diffraction (XRD) measurements and infer that all the samples are polycrystalline, with an hexagonal close packed (h.c.p.) structure and exhibit a preferred orientation, for the perpendicularly evaporated films. The grain size is found to increase with the thickness of the magnetic layer. The values of the computed parameters allow concluding to a compressive stress for the thinnest films. The static magnetic properties have been performed by means of magnetic force microscopy (M.F.M.) and Alternating Gradient Field Magnetometer (A.G.F.M.) tools. The dynamic magnetic properties have been investigated using Brillouin Light Scattering (B.L.S.) measurements. The M.F.M. observations were performed after in-plane ac demagnetization, and stripe patterns are only observed for the thickest films, showing the weaker perpendicular anisotropies. We used the experimental results provided by these tools to compute the effective magnetic anisotropy factors K u . Values of K u anisotropy constants, higher than 13 × 10 6 erg.cm −3 , have been found.

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