Magneto-transport in 3D topological insulator nanowires

November 29 2017
Types d’événements
Séminaire SPEC
Cosimo Gorini
SPEC Salle Itzykson, Bât.774
29/11/2017
from 11:00 to 12:00

Séminaire proposé par Geneviève Fleury.

Three-dimensional topological insulators (3DTIs) are a class of bulk insulators hosting time reversal symmetry-protected metallic surface states. The latter are helical, i.e. characterized by (pseudo)spin-momentum locking, and described by low-energy effective models à la Dirac. 3DTI nanowires are a rich quantum transport playground, due to the interplay between topological properties and effects arising from phase coherence. The fact that the conducting Dirac states are “wrapped” around an insulating bulk leads to interesting and geometry-sensitive magnetoresistive phenomena, which in standard metallic systems are absent or at best inaccessible, since bulk and surface contributions cannot in general be singled out.

I will start with an analysis of low-T magneto-conductance measurements in 3DTI nanowires performed by our collaborators (D. Weiss’ group, Uni Regensburg), showing evidence of quasi-ballistic topological surface transport. I will then discuss theoretically effects due to the curvature of the surface states. The focus will be on shaped nanowires with varying cross-section, hosting a competition between quantum confinement and a spatially varying enclosed magnetic flux

Institut für Theoretische Physik, Universität Regensburg