Artificial graphene consisting of honeycomb lattices other than the atomic layer of carbon has been shown to exhibit electronic properties similar to real graphene. Here, we reverse the argument to show that transport properties of real graphene can be captured by simulations using "theoretical artificial graphene." To prove this, we first derive a simple condition, along with its restrictions, to achieve band structure invariance for a scalable graphene lattice. We then present transport measurements for an ultraclean suspended single-layer graphene pn junction device, where ballistic transport features from complex Fabry-P\'erot interference (at zero magnetic field) to the quantum Hall effect (at unusually low field) are observed and are ...
Novel, two-dimensional materials have allowed for the inception and elucidation of a plethora of phy...
In 2004 graphene, a monolayer of carbon atoms, has been isolated as the first real two-dimensional s...
The two dimensional charge carriers in mono- and bilayer graphene are described by massless and mass...
Artificial graphene consisting of honeycomb lattices other than the atomic layer of carbon has been ...
A scalable tight-binding model is applied for large-scale quantum transport calculations in clean gr...
The quantum transport formalism based on tight-binding models is known to be powerful in dealing wit...
Graphene, a one atom-thick layer of carbon arranged in a honeycomb lattice, has sparked out intense ...
Ultraclean graphene sheets encapsulated between hexagonal boron nitride crystals host two-dimensiona...
After the experimental discovery of graphene -a single atomic layer of graphite- a scientific rush s...
Ultraclean graphene sheets encapsulated between hexagonal boron nitride crystals host two-dimensiona...
Here, the quantization of Dirac fermions in lithographically defined grapheme nanoconstrictions is s...
ABSTRACT: The unique ultrarelativistic, massless, nature of electron states in two-dimensional exten...
Graphene, a recently discovered allotrope of carbon, is the first purely two-dimensional material to...
Conductance quantization is the quintessential feature of electronic transport in non-interacting me...
Graphene,a single atomic layer of graphite,has been endowed with numerous peculiar properties that m...
Novel, two-dimensional materials have allowed for the inception and elucidation of a plethora of phy...
In 2004 graphene, a monolayer of carbon atoms, has been isolated as the first real two-dimensional s...
The two dimensional charge carriers in mono- and bilayer graphene are described by massless and mass...
Artificial graphene consisting of honeycomb lattices other than the atomic layer of carbon has been ...
A scalable tight-binding model is applied for large-scale quantum transport calculations in clean gr...
The quantum transport formalism based on tight-binding models is known to be powerful in dealing wit...
Graphene, a one atom-thick layer of carbon arranged in a honeycomb lattice, has sparked out intense ...
Ultraclean graphene sheets encapsulated between hexagonal boron nitride crystals host two-dimensiona...
After the experimental discovery of graphene -a single atomic layer of graphite- a scientific rush s...
Ultraclean graphene sheets encapsulated between hexagonal boron nitride crystals host two-dimensiona...
Here, the quantization of Dirac fermions in lithographically defined grapheme nanoconstrictions is s...
ABSTRACT: The unique ultrarelativistic, massless, nature of electron states in two-dimensional exten...
Graphene, a recently discovered allotrope of carbon, is the first purely two-dimensional material to...
Conductance quantization is the quintessential feature of electronic transport in non-interacting me...
Graphene,a single atomic layer of graphite,has been endowed with numerous peculiar properties that m...
Novel, two-dimensional materials have allowed for the inception and elucidation of a plethora of phy...
In 2004 graphene, a monolayer of carbon atoms, has been isolated as the first real two-dimensional s...
The two dimensional charge carriers in mono- and bilayer graphene are described by massless and mass...