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Magnetophotoluminescence of Modulation-Doped CdTe Multiple Quantum Wells.

Wiktoria SolarskaKrzysztof KarpierzMaciej ZarembaFlorian Le MardeléIvan MohelskyAdam SiemaszkoMikołaj GrymuzaŁucja KipczakNatalia ZawadzkaMaciej R MolasEryk ImosZbigniew AdamusTomasz SłupińskiTomasz WojtowiczMilan OrlitaAdam BabińskiJerzy Łusakowski
Published in: ACS omega (2023)
Modulation-doped CdTe quantum wells (QWs) with Cd 0.7 Mg 0.3 Te barriers were studied by photoluminescence (PL) and far-infrared Fourier spectroscopy under a magnetic field at 4.2 K and by Raman spectroscopy at room temperature. Two samples were tested: a sample which contained ten QWs (MQW) and a sample with one QW (SQW). The width of each QW was equal to 20 nm, and each of them was modulation-doped with iodine donors introduced in a 4 nm thick layer. The concentration of donors in each doped layer was nominally identical, but the thickness of the spacer in SQW and MQW samples was 20 and 10 nm, respectively. This resulted in a two times higher electron concentration per well in the MQW sample than in the SQW sample. We observed differences in PL from the two samples: the energy range of PL was different, and one observed phonon replicas in MQW which were absent in the SQW sample. An analysis of oscillations of the PL intensity as a function of magnetic field indicated that PL resulted from the recombination of free electrons in the conduction band with free or localized holes in the case of SQW and MQW samples, respectively.
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