T. E. Govorkova scite author profile

T. E. Govorkova

3Publications

56Citation Statements Received

52Citation Statements Given

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Affiliations

M.N. Mikheev Institute of Metal Physics, Russian Academy of Sciences, Ural Institute of Metals

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Peculiar behavior of magnetoresistance in HgSe single crystal with low electron concentration

Lonchakov

Bobin

Deryushkin

et al. 2018

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For the first time, magnetoresistive properties of the single crystal of HgSe with a low electron concentration were studied in wide range of temperature and magnetic field. Some fundamental parameters of spectrum and scattering of electrons were experimentally determined.Two important features of magnetic transport were foundstrong transverse magnetoresistance (МR) and negative longitudinal MR, which can indicate the existence of the topological phase of the Weyl semimetal (WSM) in HgSe. Taking this hypothesis into account we suggest a modified band diagram of the mercury selenide at low electron energies. The obtained results are essential for the deeper understanding of both physics of gapless semiconductors and WSMspromising materials for various applications in electronics, spintronics, computer and laser technologies. Weyl and Dirac semimetals have recently attracted great attention as materials that possess strong spin-orbit coupling (SOC) and relativistic electron spectrum. Such materials can be considered to be three-dimensional analogues of graphene. For an WSM phase to exist there should be breaking of either inversion symmetry, as in monophosphides and monoarsenides of tantalum and niobium TaP [1,2], TaAs [3], NbP [4], NbAs [5], or time reversal symmetry, as in the ferromagnetic spinel HgCr2Se4 [6]. The breaking of inversion symmetry also occurs in mercury selenidegapless semiconductor that crystallizes into a zinc-blende structure and has inverted electron spectrum in the center of the Brillouin zone. The zinc-blende structure consists of two mutually interpenetrating face-centered cubic lattices with a tetrahedral coordination of atoms. HgSe belongs to the space symmetry group F43m with the lattice constant а = 6.074Å and coordination number Z = 4. The band order is inverted because of relativistic effects including SOC [7]. Mercury selenide with low electron concentration can become relevant material in the topological condensed matter physics. In this regard, it should be noted that in HgSe under no annealing condition could the electron concentration be reduced below ~ 10 16 cm -3 at 4.2K [7]. Smallness of the electron concentration is essential to reveal the Weyl nodesfeatures of an energy spectrum of topological nature. The Weyl nodes (or magnetic monopoles) are band touching points in the momentum space, which always come in pairs of opposite chirality [8]. Near

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Experimental validation of the anomalies in the electron density of states in semiconductor iron-vanadium-aluminum alloys

Okulov

Архипов

Govorkova

et al. 2007

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The temperature dependences of the resistivity, Hall coefficient, and magnetic susceptibility of iron-vanadium-aluminum alloys have been investigated. It has been established that the alloy Fe1.9V1.1Al exhibits semiconductor behavior for the method used to obtain uniform alloys. It is shown that at temperatures below 30K the semiconductor alloy possesses the characteristic low-temperature scale of the dependences observed, which could be responsible for the appearance of a narrow pseudogap in the electron density of states. A simple theoretical description of the effects of a pseudogap is proposed. A consistent fit of the theoretical to the experimental relations made it possible to determine the effective width of the pseudogap (∼1MeV) and its relative depth (∼102).

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Anomalous low-temperature contribution to the heat capacity from hybridized electronic states on transition element impurities

Okulov

Lonchakov

Govorkova

et al. 2011

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An anomalous nonmonotonic contribution to the temperature dependence of the electron heat capacity of mercury selenide is detected. This is explained in terms of hybridized electronic states on donor impurities. The observed effect is described by a theory of electron heat capacity based on a quantum Fermi-liquid approach including localization and electron-electron interactions. A quantitative interpretation of the experimental dependences yields values for the parameters of the hybridized states that are consistent with those known from other experiments. A new parameter characterizing the electron-electron interaction in the hybridized states is also found.

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T. E. Govorkova

Peculiar behavior of magnetoresistance in HgSe single crystal with low electron concentration

Experimental validation of the anomalies in the electron density of states in semiconductor iron-vanadium-aluminum alloys

Anomalous low-temperature contribution to the heat capacity from hybridized electronic states on transition element impurities

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