This study is concerned with a two-dimensional (2D) electron–
hole (e–h) system in a strong perpendicular magnetic field with
special attention devoted to the Rashba spin–orbit coupling
(RSOC). The influence of this interaction on the chemical
potential of the Bose–Einstein condensed magnetoexcitons and
on the ground-state energy of the metallic-type electron–hole
liquid (EHL) is investigated in the Hartree–Fock approximation
(HFA). The magnetoexciton ground-state energy, and the
energy of the single-particle elementary excitations were
obtained. We demonstrated that chemical potential is a
monotonic function versus the value of the filling factor with
negative compressibility, which leads to instability of the Bose–
Einstein condensate of magnetoexcitons. The energy per one
e–h pair inside the electron–hole droplets (EHD) is found to be
situated on the energy scale lower than the value of the chemical
potential of the Bose–Einstein condensed magnetoexcitons
with wave vector k ¼ 0 calculated in the HFA.
Публикация
Phys. Status Solidi B 250, No. 7, 1432–1438 (2013)
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