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arxiv: 1309.6083 · v2 · pith:V5ZZ5X5Dnew · submitted 2013-09-24 · ❄️ cond-mat.mes-hall

Plasmons due to the interplay of Dirac and Schr\"odinger fermions

classification ❄️ cond-mat.mes-hall
keywords modeldiracfermionsodingerquantumschrinterplaylimit
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We study the interplay between Dirac and Schr\"odinger fermions in the polarization properties of a two-dimensional electron gas (2DEG). Specifically, we analyze the low-energy sector of narrow-gap semiconductors described by a two-band Kane model. In the context of quantum spin Hall insulators, particularly, in Hg(Cd)Te quantum wells, this model is named Bernevig-Hughes-Zhang model. Interestingly, it describes electrons with intermediate properties between Dirac and Schr\"odinger fermions. We calculate the dynamical dielectric function of such a model at zero temperature within random phase approximation. Surprisingly, plasmon resonances are found in the intrinsic (undoped) limit, whereas they are absent - in that limit - in graphene as well as ordinary 2DEGs. Additionally, we demonstrate that the optical conductivity offers a quantitative way to identify the topological phase of Hg(Cd)Te quantum wells from a bulk measurement.

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