Title:
A new topological insulator built from quasi one-dimensional atomic ribbons
Author(s):
Schönherr, Piet; Zhang, Shilei; Liu, Yuanqian; Kusch, Patryk; Reich, Stephanie; Giles, Terence; Daisenberger, Dominik; Prabhakaran, Dharmalingam; Chen, Yulin; Hesjedal, Thorsten
Year of publication:
2015
Available Date:
2016-06-02T12:08:47.214Z
Abstract:
A novel topological insulator with orthorhombic crystal structure is
demonstrated. It is characterized by quasi one-dimensional, conducting atomic
chains instead of the layered, two-dimensional sheets known from the
established Bi2(Se,Te)3 system. The Sb-doped Bi2Se3 nanowires are grown in a
TiO2-catalyzed process by chemical vapor deposition. The binary Bi2Se3 is
transformed from rhombohedral to orthorhombic by substituting Sb on ∼38% of
the Bi sites. Pure Sb2Se3 is a topologically trivial band insulator with an
orthorhombic crystal structure at ambient conditions, and it is known to
transform into a topological insulator at high pressure. Angle-resolved
photoemission spectroscopy shows a topological surface state, while Sb doping
also tunes the Fermi level to reside in the bandgap.
Part of Identifier:
ISSN (print): 18626254
Keywords:
topological insulators
angle-resolved photoemission spectroscopy
nanowires
(Bi,Sb)2Se3
orthorhombic structure
DDC-Classification:
530 Physik
Publication Type:
Wissenschaftlicher Artikel
Also published in:
physica status solidi (RRL) - Rapid Research Letters. - 9 (2015), 2, S.
130-135
URL of the Original Publication:
DOI of the Original Publication:
Department/institution:
Physik
Institut für Experimentalphysik
