Н. Н. Новицкий scite author profile

We have studied the electron transport in SiO 2 (Co)/GaAs and SiO 2 (Co)/Si heterostructures, where the SiO 2 (Co) structure is the granular SiO 2 film with Co nanoparticles. In SiO 2 (Co)/GaAs heterostructures giant magnetoresistance effect is observed. The effect has positive values, is expressed, when electrons are injected from the granular film into the GaAs semiconductor, and has the temperature-peak type character. The temperature location of the effect depends on the Co concentration and can be shifted by the applied electrical field. For the SiO 2 (Co)/GaAs heterostructure with 71 at.% Co the magnetoresistance reaches 1000 (10 5 %) at room temperature. On the contrary, for SiO 2 (Co)/Si heterostructures magnetoresistance values are very small (4%) and for SiO 2 (Co) films the magnetoresistance has an opposite value. High values of the magnetoresistance effect in SiO 2 (Co)/GaAs heterostructures have been explained by magnetic-field-controlled process of impact ionization in the vicinity of the spin-dependent potential barrier formed in the semiconductor near the interface. Kinetic energy of electrons, which pass through the barrier and trigger the avalanche process, is reduced by the applied magnetic field. This electron energy suppression postpones the onset of the impact ionization to higher electric fields and results in the giant magnetoresistance. The spin-dependent potential barrier is due to the exchange interaction between electrons in the accumulation electron layer in the semiconductor and d-electrons of Co. Existence of spin-polarized localized electron states in the accumulation layer results in the temperature-peak type character of the barrier and the magnetoresistance effect. Spin injector and spin-valve structure on the base of ferromagnet / semiconductor heterostructures with quantum wells with spin-polarized localized electrons in the semiconductor at the interface are considered.

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Giant injection magnetoresistance in gallium arsenide/granulated film heterostructures with nanosize cobalt inclusions

Lutsev¹,

Stognii

Новицкий

2005

Jetp Lett.

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Preparation of ultrathin gold films by oxygen-ion sputtering and their optical properties

et al. 2003

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Synthesis, magnetic properties and spin-wave propagation in thin Y₃Fe₅O₁₂films sputtered on GaN-based substrates

Stognij¹,

Lutsev²,

Новицкий³

et al. 2015

J. Phys. D: Appl. Phys.

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