Vìsnik Harkìvsʹkogo nacìonalʹnogo unìversitetu ìmenì V.N. Karazìna. Serìâ: fìzika. (Jul 2021)

Photo-induced "high-temperature" superconductivity of multicomponent metal-oxide compounds

  • Yu.I. Boyko,
  • V.V. Bogdanov,
  • R.V. Vovk,
  • B.V. Grinev

DOI
https://doi.org/10.26565/2222-5617-2021-34-03
Journal volume & issue
no. 34
pp. 19 – 24

Abstract

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The work is devoted to the problem of searching for substances with superconductivity at room temperature and atmospheric pressure. It develops ideas in the direction of studying the properties of multicomponent metal-oxide compounds. The main attention is paid to studies devoted to explanation of the role of various mechanisms of the formation of paired electrons in these compounds. Naturally, most of this kind of research is devoted to the study of the chemical structure and crystallographic structure of metal oxides, since they determine the properties of the electronic subsystem of these substances, which cause their transition to the superconducting state. Analysis of the crystallographic structure of metal oxide YBa2Cu3O7–х leads to the conclusion that the main role in the formation of its superconducting state is played by the presence of planes CuO2, separated by solitary planes composed of chains CuO. The presence of chemically different states of like-named pairs of ions, characterized by different types of bonds (ionic and covalent), as well as the specific layered crystallographic structure of the metal-oxide give rise to the existence of clusters of negative U-centers capable of generating paired electrons realizing the superconductivity of metal-oxide substances. This paper discusses the possibility of intensifying the transition of metal-oxide compounds to the superconducting state under conditions of irradiation with a photon flux. In this case, the formation of an energy spectrum that allows local pair transitions of electrons can be activated (the effect of internal photoionization) and, thus, the transition of metal oxides to the superconducting state can occur at higher temperatures than is observed under normal conditions.

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