BibTeX
CSL-JSON
MLA
Harvard
Protected pseudohelical edge states in proximity graphene ribbons and
flakes
release_u5qum3w43ja73ikyjhbec4gqam
by
Tobias Frank and Petra Högl,
Martin Gmitra,
Denis Kochan,
Jaroslav
Fabian
Released
as a article
.
2017
Abstract
We investigate topological properties of models that describe graphene on
realistic substrates which induce proximity spin-orbit coupling in graphene. A
Z_2 phase diagram is calculated for the parameter space of
(generally different) intrinsic spin-orbit coupling on the two graphene
sublattices, in the presence of Rashba coupling. The most fascinating case is
that of staggered intrinsic spin-orbit coupling which, despite being
topologically trivial, Z_2 = 0, does exhibit edge states protected
against time-reversal scattering for zigzag ribbons as wide as micrometers. We
call these states pseudohelical as their helicity is locked to the sublattice.
The spin character and robustness of the pseudohelical modes is best exhibited
on a finite flake, which shows that the edge states have zero g-factor, carry
a finite spin current in the crossection of the flake, and exhibit spin-flip
reflectionless tunneling at the armchair edges.
In text/plain format
Archived Files and Locations
application/pdf
2.9 MB
file_v5qqg4auvvg4boryn6g5pwbomy
|
arxiv.org (repository) web.archive.org (webarchive) |
Read Archived PDF
Preserved and Accessible
arXiv
1707.02124v1
Work Entity
access all versions, variants, and formats of this works (eg, pre-prints)
access all versions, variants, and formats of this works (eg, pre-prints)
Cite This
Lookup Links