Maqola

Percolation effects in the conductivity and magnetoresistance of compacted chromium dioxide powder

Б. И. БелевцевVerkin Physicotechnical Institute of Low Temperatures, Kharkov, 61103, UkraineН. В. ДалаковаVerkin Physicotechnical Institute of Low Temperatures, Kharkov, 61103, UkraineMikhail OsmolowskySt. Petersburg State University, St. Petersburg, 198504, RussiaE. Yu. BeliayevVerkin Physicotechnical Institute of Low Temperatures, Kharkov, 61103, UkraineA. A. SelutinSt. Petersburg State University, St. Petersburg, 198504, RussiaYu. A. KolesnichenkoVerkin Physicotechnical Institute of Low Temperatures, Kharkov, 61103, Ukraine

Bulletin of the Russian Academy of Sciences Physicsjournal2010en

ABI

Annotatsiya

The resistive and magnetoresistive properties of a submicron (120 nm) compacted CrO2 powder with a Curie temperature of ∼385 K were investigated in the temperature range of 5–430 K for magnetic fields of up to 1.6 T. The specimen revealed a nonmetallic temperature dependence of resistance and high negative magnetoresistance (MR) (20%) in a low-temperature range. The MR magnitude rapidly decreased with an increase in temperature and was less than 0.3% for T > 200 K. Such MR behavior is shown to be characteristic for granular systems with spin-dependent intergranular tunneling. Some features of MR behavior in a low-temperature range (lower than 40 K) can be attributed to the percolation nature of the tunnel conductivity of such a granular system in the presence of a limited number of dominant conducting current paths.

Mavzular

Advanced Condensed Matter Physics Magnetic and transport properties of perovskites and related materials Multiferroics and related materials

Identifikatorlar

DOI: 10.3103/s1062873810080071

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