Structure-Dependent Magnetoresistance in the Zn0.1Cd0.9GeAs2 + MnAs Hybrid Nanocomposite


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Abstract

The effect of high pressure on electron transport and on the field dependence of the transverse magnetoresistance has been studied in a hybrid nanocomposite based on the Zn0.1Cd0.9GeAs2 matrix and MnAs clusters. A record high negative magnetoresistance of ~74% is formed near a pressure-induced structural transition (P≈ 3.5 GPa). The considered scattering mechanisms include both the contribution from MnAs clusters at relatively low pressures (up to 0.7 GPa) and spin-dependent scattering by localized magnetic moments in the Mn-substituted structure of the matrix in the region of the structural transition. The presence of the positive magnetoresistance region associated with the two-band transport model in the high-pressure phase, as well as the large negative magnetoresistance, is described in the framework of the semiempirical Khosla–Fischer expression.

About the authors

R. K. Arslanov

Amirkhanov Institute of Physics, Dagestan Scientific Center

Author for correspondence.
Email: arslanovr@gmail.com
Russian Federation, Makhachkala, 367003

T. R. Arslanov

Amirkhanov Institute of Physics, Dagestan Scientific Center

Email: arslanovr@gmail.com
Russian Federation, Makhachkala, 367003

I. V. Fedorchenko

Kurnakov Institute of General and Inorganic Chemistry

Email: arslanovr@gmail.com
Russian Federation, Moscow, 119991

L. Kilanski

Institute of Physics

Email: arslanovr@gmail.com
Poland, Warsaw, PL-02668

T. Chatterji

Institut Laue–Langevin

Email: arslanovr@gmail.com
France, Grenoble Cedex 9, 38042

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