Self-Consistent Approach to Solving the Problem of Crystal Lattice Formation in an Electron-Hole Plasma

We transform the Hubbard Hamiltonian for electrons of ns bands of crystal atoms into the electron-hole Hamiltonian using Shiba operators. We use this Hamiltonian to study the behavior of the electron-hole system as a function of its internal and external parameters and show that in contrast to a one...

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Veröffentlicht in:	Theoretical and mathematical physics 2019-07, Vol.200 (1), p.1063-1073
Hauptverfasser:	Voronkova, T. O., Sarry, A. M., Sarry, M. F., Skidan, S. G.
Format:	Artikel
Sprache:	eng
Schlagworte:	Applications of Mathematics Crystal lattices Electrons Holes (electron deficiencies) Mathematical and Computational Physics Phase transitions Physics Physics and Astronomy Theoretical
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description	We transform the Hubbard Hamiltonian for electrons of ns bands of crystal atoms into the electron-hole Hamiltonian using Shiba operators. We use this Hamiltonian to study the behavior of the electron-hole system as a function of its internal and external parameters and show that in contrast to a one-component electron system, there are no conditions for the appearance of structural phase transitions in this two-component system.
doi_str_mv	10.1134/S0040577919070109
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subjects	Applications of Mathematics Crystal lattices Electrons Holes (electron deficiencies) Mathematical and Computational Physics Phase transitions Physics Physics and Astronomy Theoretical
title	Self-Consistent Approach to Solving the Problem of Crystal Lattice Formation in an Electron-Hole Plasma
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