Phase-coherent transport in catalyst-free vapor phase deposited Bi2Se3 crystals

Abstract

Free-standing Bi2Se3 single crystal flakes of variable thickness are grown using a catalyst-free vapor-solid synthesis and are subsequently transferred onto a clean Si++/SiO2 substrate where the flakes are contacted in Hall bar geometry. Low temperature magneto-resistance measurements are presented which show a linear magneto-resistance for high magnetic fields and weak anti-localization (WAL) at low fields. Despite an overall strong charge carrier tunability for thinner devices, we find that electron transport is dominated by bulk contributions for all devices. Phase coherence lengths φ as extracted from WAL measurements increase linearly with increasing electron density exceeding 1 μ m at 1.7 K. While φ is in qualitative agreement with electron electron interaction-induced dephasing, we find that spin flip scattering processes limit φ at low temperatures.