Journals Information
Universal Journal of Materials Science Vol. 1(2), pp. 25 - 30
DOI: 10.13189/ujms.2013.010203
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Magnetooptical and Magnetoresistive Properties of Solid-Solution Films
Cheshko I.V., Kondrakhova D.M., Odnodvorets L.V.*, Pylypenko O.O., Shabelnyk Yu.M.
Department of Applied Physic, Faculty of Electronics and Informational Technologies, Sumy State University, Sumy, 2, Rymskyi-Korsakov Str. 40007, Ukraine
ABSTRACT
The results of study magnetooptical and magnetoresistive properties of multilayers based on Co, Fe and Cu, Ag or Au, in which are formed solid solutions (s.s.) with possible subsequent formation the granular state are presents. The dimensional and concentration dependences of the magnetooptical Kerr effect and magnetoresistance for two-layer systems and multilayers with different types of solubility (for systems based on Cu and Co is unlimited, as for Co and Au, Ag and Co - limited) at different stages of annealing was received and analyzed. Established the basic regularities of influence by processes of formation s.s. (Cu, Co), (Au, Co) and (Ag, Co) in the film systems obtained layering condensation with followed annealing on the magnetic properties on the whole film system. It is shown that in systems where similar processes of formation s.s. are absent (the system based on Fe and Ag) magnetic properties depend only on the concentration of magnetic components and common thickness of the sample.
KEYWORDS
Thin Film, Magnetoresistance, Magnetic Anisotropy, Solid Solution, Magnetooptical Kerr Effect
Cite This Paper in IEEE or APA Citation Styles
(a). IEEE Format:
[1] Cheshko I.V. , Kondrakhova D.M. , Odnodvorets L.V. , Pylypenko O.O. , Shabelnyk Yu.M. , "Magnetooptical and Magnetoresistive Properties of Solid-Solution Films," Universal Journal of Materials Science, Vol. 1, No. 2, pp. 25 - 30, 2013. DOI: 10.13189/ujms.2013.010203.
(b). APA Format:
Cheshko I.V. , Kondrakhova D.M. , Odnodvorets L.V. , Pylypenko O.O. , Shabelnyk Yu.M. (2013). Magnetooptical and Magnetoresistive Properties of Solid-Solution Films. Universal Journal of Materials Science, 1(2), 25 - 30. DOI: 10.13189/ujms.2013.010203.