Helical 1D electronic systems are a promising route towards realizing circuits of topological quantum states that exhibit non-Abelian statistics. Here, we demonstrate a versatile platform to realize 1D systems made by combining quantum Hall (QH) edge states of opposite chiralities in a graphene electron-hole bilayer at moderate magnetic fields. Using this approach, we engineer helical 1D edge conductors where the counterpropagating modes are localized in separate electron and hole layers by a tunable electric field. These helical conductors exhibit strong non-local transport signals and suppressed backscattering due to the opposite spin polarizations of the counterpropagating modes. Unlike other approaches used for realizing helical states,...
Abstract Although indications are that a single chiral quantum anomalous Hall(QAH) edge mode might h...
Realizations of some topological phases in two-dimensional systems rely on the challenge of jointly ...
The primary subject of this thesis is graphene and how the rudimentary attributes of its charge carr...
Helical 1D electronic systems are a promising route towards realizing circuits of topological quantu...
In this study, we determined the chiral direction of the quantum-Hall (QH) edge states in graphene b...
The quantum anomalous Hall effect can occur in single- and few-layer graphene systems that have both...
We study the electronic transport across an electrostatically gated lateral junction in a HgTe quant...
The rich phase diagram of quantum spin-ladder systems has attracted much attention in the theoretica...
A two-dimensional electron system placed in a magnetic field develops Landau levels, where strong Co...
The advent of topological phases of matter revealed a variety of observed boundary phenomena, such a...
We theoretically investigate the quantum Hall effect in a graphene superlattice (GS) system, in whic...
We consider the ν=0 quantum Hall ferromagnetic state of bilayer graphene subject to a kinklike perp...
Bilayer graphene, in the presence of a one-sided spin-orbit interaction (SOI) induced by a suitably ...
Chirally stacked N-layer graphene systems with N >= 2 exhibit a variety of distinct broken symmet...
We investigate low-temperature magneto-transport in recently developed, high-quality multiterminal s...
Abstract Although indications are that a single chiral quantum anomalous Hall(QAH) edge mode might h...
Realizations of some topological phases in two-dimensional systems rely on the challenge of jointly ...
The primary subject of this thesis is graphene and how the rudimentary attributes of its charge carr...
Helical 1D electronic systems are a promising route towards realizing circuits of topological quantu...
In this study, we determined the chiral direction of the quantum-Hall (QH) edge states in graphene b...
The quantum anomalous Hall effect can occur in single- and few-layer graphene systems that have both...
We study the electronic transport across an electrostatically gated lateral junction in a HgTe quant...
The rich phase diagram of quantum spin-ladder systems has attracted much attention in the theoretica...
A two-dimensional electron system placed in a magnetic field develops Landau levels, where strong Co...
The advent of topological phases of matter revealed a variety of observed boundary phenomena, such a...
We theoretically investigate the quantum Hall effect in a graphene superlattice (GS) system, in whic...
We consider the ν=0 quantum Hall ferromagnetic state of bilayer graphene subject to a kinklike perp...
Bilayer graphene, in the presence of a one-sided spin-orbit interaction (SOI) induced by a suitably ...
Chirally stacked N-layer graphene systems with N >= 2 exhibit a variety of distinct broken symmet...
We investigate low-temperature magneto-transport in recently developed, high-quality multiterminal s...
Abstract Although indications are that a single chiral quantum anomalous Hall(QAH) edge mode might h...
Realizations of some topological phases in two-dimensional systems rely on the challenge of jointly ...
The primary subject of this thesis is graphene and how the rudimentary attributes of its charge carr...
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