期刊论文详细信息
Two-body problem for two-dimensional electrons in the Bernervig-Hughes-Zhang model
Article
关键词: TOPOLOGICAL INSULATORS;    QUANTUM-WELLS;    EXCITONS;    GAP;   
DOI  :  10.1103/PhysRevB.95.085417
来源: SCIE
【 摘 要 】
We study the two-body problem for two-dimensional electron systems in a symmetrized Bernevig-Hughes-Zhang model, which is widely used to describe topological and conventional insulators. The main result is that two interacting electrons can form bound states with the energy in the gap of the band spectrum. The pairing mechanism can be interpreted as the formation of a negative reduced effectivemass of two electrons. The problem is complicated because the relative motion of the electrons is coupled to the center-of-mass motion. We consider the case of zero total momentum. Detail calculations are carried out for the repulsive interaction potential of steplike form. The states are classified according to their spin structure and two-particle basis functions that form a given bound state. We analyze the spectra and electronic structure of the bound states in the case of both topological and trivial phases and especially focus on effects originating from the band inversion and the coupling of the electron and hole bands. In the trivial phase and the topological phase with the large coupling parameter a, the bound state spectra are qualitatively similar. However, when a is less a certain value, the situation changes dramatically. In the topological phase, new states arise with a higher binding energy at lower interaction potential, which evidences that the band inversion can favor pairing the electrons.
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