Partner: Stephen Fahy


Ostatnie publikacje
1.Querales-Flores J.D., Aquado-Puente P., Dangić Đ., Cao J., Chudziński P., Todorov T.N., Grüning M., Fahy S., Savić I., Towards temperature-induced topological phase transition in SnTe: a first-principles study, Physical Review B, ISSN: 2469-9969, DOI: 10.1103/PhysRevB.101.235206, Vol.101, pp.235206-1-10, 2020

Streszczenie:

The temperature renormalization of the bulk band structure of a topological crystalline insulator, SnTe, is calculated using first-principles methods. We explicitly include the effect of thermal-expansion-induced modification of electronic states and their band inversion on electron-phonon interaction.We show that the direct gap decreases with temperature, as both thermal expansion and electron-phonon interaction drive SnTe towards the phase transition to a topologically trivial phase as temperature increases. The band gap renormalization due to electron-phonon interaction exhibits a nonlinear dependence on temperature as the material approaches the phase transition, while the lifetimes of the conduction band states near the band edge show a nonmonotonic behawior with temperature. These effects should have important implications on bulk electronic and thermoelectric transport in SnTe and other topological insulators.

Afiliacje autorów:

Querales-Flores J.D.-other affiliation
Aquado-Puente P.-Queen’s University Belfast (IE)
Dangić Đ.-other affiliation
Cao J.-other affiliation
Chudziński P.-IPPT PAN
Todorov T.N.-Queen’s University Belfast (IE)
Grüning M.-Queen’s University Belfast (IE)
Fahy S.-other affiliation
Savić I.-other affiliation
140p.