Electronic band structure of Sb2Te3

Mohelsky, I.; Wyzula, J.; Le Mardele, F.; Abadizaman, F.; Caha, O.; Dubroka, A.; Sun, X. D.; Cho, C. W.; Piot, B. A.; Tanzim, M. F.; Aguilera, I.; Bauer, G.; Springholz, G.; Orlita, Milan

doi:10.1103/PhysRevB.109.165205

Electronic band structure of Sb₂Te₃

původní článek

Získat publikaci

Autor

Mohelsky, I.

Wyzula, J.

Le Mardele, F.

Abadizaman, F.

Caha, O.

Dubroka, A.

Sun, X. D.

Cho, C. W.

Piot, B. A.

Tanzim, M. F.

Aguilera, I.

Bauer, G.

Springholz, G.

Orlita, Milan

Zobrazit další autory

Datum vydání

2024

Publikováno v

Physical Review B

Ročník / Číslo vydání

109 (16)

ISBN / ISSN

ISSN: 2469-9950

ISBN / ISSN

eISSN: 2469-9969

Metadata

Zobrazit celý záznam

Kolekce

Matematicko-fyzikální fakulta

Tato publikace má vydavatelskou verzi s DOI 10.1103/PhysRevB.109.165205

Abstrakt

We report on Landau-level spectroscopy of an epitaxially grown thin film of the topological insulator Sb(2)Te(3), complemented by ellipsometry and magnetotransport measurements. The observed response suggests that Sb(2)Te(3) is a direct-gap semiconductor with the fundamental band gap located at the gamma point or along the trigonal axis, and its width reaches E(g) = (190 +/- 10) meV at low temperatures. Our data also indicate the presence of other low-energy extrema with a higher multiplicity in both the conduction and valence bands. The conclusions based on our experimental data are confronted with and to a great extent corroborated by the electronic band structure calculated using the GW method.

Klíčová slova

highest valence-band, topological insulators, conduction electrons, realization, transport, Sb(2)Te(3)

Trvalý odkaz

https://hdl.handle.net/20.500.14178/2943

Zobraz publikaci v dalších systémech

Licence

Licence pro užití plného textu výsledku: Creative Commons Uveďte původ 4.0 International

Zobrazit podmínky licence