Magnetoresistive and Magnetooptical Properties of the Film Systems with Possible Spin-Dependent Electron Scattering
I. Yu. Protsenko, I. V. Cheshko, L. V. Odnodvorets’, D. M. Kondrakhova, O. V. Pylypenko, Yu. M. Shabel’nyk, O. V. Vlasenko
Sumy State University, 2 Rymsky-Korsakov Str., UA-40007 Sumy, Ukraine
Received: 26.02.2013. Download: PDF
Experimental findings of investigation of magnetoresistive and magnetooptical properties of materials, in which the spin-dependent electron scattering can be implemented in the film magnetic Co- and Fe-based systems as well as nonmagnetic Cu-, Ag-, Au-, Cr-, Pt-, Pd-, and Ge-based ones are presented. As shown, depending on atomic solubility degree, in device systems such as multilayers, spin-valves or granular systems, the different features of remagnetization processes, magnetoresistance, and magneto-optical Kerr effect manifest themselves.
Keywords: nanoscale film systems, multilayers, spin-valve, magneto-resistance, magnetic anisotropy, magneto-optic Kerr effect.
PACS: 72.25.-b, 73.50.Jt, 75.70.Ak, 78.20.Ls, 85.70.Kh, 85.70.Sq, 85.75.-d
Citation: I. Yu. Protsenko, I. V. Cheshko, L. V. Odnodvorets’, D. M. Kondrakhova, O. V. Pylypenko, Yu. M. Shabel’nyk, and O. V. Vlasenko, Magnetoresistive and Magnetooptical Properties of the Film Systems with Possible Spin-Dependent Electron Scattering, Usp. Fiz. Met., 14, No. 3: 229—257 (2013) (in Ukrainian), doi: 10.15407/ufm.14.03.229