4.6 Article

Nonlinear Transport and Magnetic/Magneto-Optical Properties of Cox(MgF2)100-x Nanostructures

期刊

APPLIED SCIENCES-BASEL
卷 13, 期 5, 页码 -

出版社

MDPI
DOI: 10.3390/app13052992

关键词

nanocomposites; nanocrystals; magnetoresistance; percolation threshold; impedance hodograph; magneto-optical properties; transversal Kerr effect

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The purpose of this study was to investigate the impact of variable atomic composition and structural-phase state on the nonlinear transport and magnetic/magneto-optical properties of Co-x(MgF2)(100-x) nanocomposites. Nanocomposite layers with micrometer thickness were grown on glass substrates using ion-beam sputtering technique under argon atmosphere, covering a wide range of compositions (x = 16-59 at.%). By maintaining a low metal content in the nanocomposite, magnesium fluoride remained in the nanocrystalline state, while increasing the metal content resulted in the formation of nanocrystalline cobalt. The resistive percolation threshold value (x(per) = 37 at.%) coincided with the onset of metallic nanocrystal nucleation in the MgF2 dielectric matrix. The maximum absolute value of the negative magnetoresistive effect was 5% at a Co concentration of x = 27 at.% in a magnetic field of 5.5 kG.
The aim of this work was to comprehensively study the effect of the variable atomic composition and structural-phase state of Co-x(MgF2)(100-x) nanocomposites on their nonlinear transport and magnetic/magneto-optical properties. Micrometer-thick nanocomposite layers on glass substrates were obtained by means of ion-beam sputtering of a composite target in the argon atmosphere in a wide range of compositions (x = 16-59 at.%). Using a low metal content in the nanocomposite, magnesium fluoride was kept in the nanocrystalline state. As the metal content increased, nanocrystalline cobalt was formed. The value of the resistive percolation threshold, x(per) = 37 at.%, determined from the concentration dependences of the electrical resistance of the nanocomposites coincided with the beginning of nucleation of the metallic nanocrystals in the MgF2 dielectric matrix. The absolute value of the maximum negative magnetoresistive effect in the nanocomposites was 5% in a magnetic field of 5.5 kG at a Co concentration of x = 27 at.%.

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