O. I. Yuzephovich scite author profile

O. I. Yuzephovich

3Publications

72Citation Statements Received

91Citation Statements Given

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Affiliations

International Laboratory of High Magnetic Fields and Low Temperatures, B. Verkin Institute for Low Temperature Physics and Engineering, National Academy of Sciences of Ukraine

Publications

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Direct evidence for interfacial superconductivity in two-layer semiconducting heterostructures

et al. 2006

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We have discovered superconductivity in the two-layer semiconducting monochalcogenide heterostrutures PbTe/ PbS, PbTe/ PbSe and PbTe/ YbS. By comparing data from two-layer samples with data from single monochalcogenide films we conclude that the superconductivity is connected with the interface between the two semiconductors. Evidence for the low dimensional nature of the superconducting interlayer is presented and a model that explains the appearance of single-interface superconductivity is proposed.

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Interfacial superconductivity in bilayer and multilayer IV–VI semiconductor heterostructures

Yuzephovich

Mikhaı̆lov

Bengus

et al. 2008

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A comprehensive investigation and comparison of the superconducting properties of bilayer and multilayer epitaxial heterostructures of IV–VI semiconductors exhibiting superconductivity at critical temperatures Tc⩽6.5K is carried out. The superconductivity of these systems is due to inversion of the bands in the narrow-gap semiconductors on account of the nonuniform stresses created by the grids of misfit dislocations arising at the interfaces during the epitaxial growth. It is found that Tc and the character of the superconducting transition of bilayer PbTe∕PbS heterostructures depend on the thickness d of the semiconductor layers and are directly related to the quality of the grids of misfit dislocations at the interfaces (the number and type of structural defects in the grids). Substantial differences in the behavior of bilayer sandwiches and superlattices are found. The minimum thickness d at which superconductivity appears is several times larger for bilayer than for multilayer systems. The upper critical magnetic fields Hc2 of the bilayer systems are more anisotropic. For superlattices 3D behavior is observed in the temperature region close to Tc, and with decreasing temperature a 3D–2D crossover occurs. For the bilayer structures 2D behavior starts immediately from Tc, and a 2D–1D crossover is observed, with the sharp divergence of Hc2 that is characteristic of superconducting nets.

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Microwave emission from superconducting vortices in Mo/Si superlattices

Dobrovolskiy¹,

Bevz²,

Mikhaı̆lov³

et al. 2018

Nat Commun

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Most of superconductors in a magnetic field are penetrated by a lattice of quantized flux vortices. In the presence of a transport current causing the vortices to cross sample edges, emission of electromagnetic waves is expected due to the continuity of tangential components of the fields at the surface. Yet, such a radiation has not been observed so far due to low radiated power levels and lacking coherence in the vortex motion. Here, we clearly evidence the emission of electromagnetic waves from vortices crossing the layers of a superconductor/insulator Mo/Si superlattice. The emission spectra consist of narrow harmonically related peaks which can be finely tuned in the GHz range by the dc bias current and, coarsely, by the in-plane magnetic field value. Our findings show that superconductor/insulator superlattices can act as dc-tunable microwave generators bridging the frequency gap between conventional radiofrequency oscillators and (sub-)terahertz generators relying upon the Josephson effect.

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O. I. Yuzephovich

Direct evidence for interfacial superconductivity in two-layer semiconducting heterostructures

Interfacial superconductivity in bilayer and multilayer IV–VI semiconductor heterostructures

Microwave emission from superconducting vortices in Mo/Si superlattices

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