We present numerical studies of quantum walks on C60 and related graphene structures to investigate their transport properties. Also known as a honeycomb lattice, the lattice formed by carbon atoms in the graphene phase can be rolled up to form nanotubes of various dimensions. Graphene nanotubes have many important applications, some of which rely on their unusual electrical conductivity and related properties. Quantum walks on graphs provide an abstract setting in which to study such transport properties independent of the other chemical and physical properties of a physical substance. They can thus be used to further the understanding of mechanisms behind such properties. We find that nanotube structures are significantly more efficient i...
Artificial graphene consisting of honeycomb lattices other than the atomic layer of carbon has been ...
Quantum computation is a new computational paradigm which can provide fundamentally faster computati...
Abstract We present a tutorial introduction into the structure and electronic properties of carbon n...
We present numerical studies of quantum walks on C 60 and related graphene structures to invest...
This thesis details research I have carried out in the field of quantum walks, which are the quantum...
Continuous-time quantum walk describes the propagation of a quantum particle (or an excitation) evol...
Abstract. Graphene has become a promising material for technological applications and research in f...
Quantum transport of electrons through graphene has attracted increased interest in the field of nan...
Beginning with an introduction to carbon-based nanomaterials, their electronic properties, and gener...
The quantum transport properties of graphene nanoribbon networks are investigated using first-princi...
This chapter focuses on the general theory of the electron transport properties of carbon nanotubes,...
Graphene, a one atom-thick layer of carbon arranged in a honeycomb lattice, has sparked out intense ...
Continuous-time quantum walk describes the propagation of a quantum particle (or an excitation) evo...
We report a first-principles investigation of transport through longitudinal unzipped carbon nanotub...
The massless Dirac particle moving at the speed of light has been a fascinating subject in relativis...
Artificial graphene consisting of honeycomb lattices other than the atomic layer of carbon has been ...
Quantum computation is a new computational paradigm which can provide fundamentally faster computati...
Abstract We present a tutorial introduction into the structure and electronic properties of carbon n...
We present numerical studies of quantum walks on C 60 and related graphene structures to invest...
This thesis details research I have carried out in the field of quantum walks, which are the quantum...
Continuous-time quantum walk describes the propagation of a quantum particle (or an excitation) evol...
Abstract. Graphene has become a promising material for technological applications and research in f...
Quantum transport of electrons through graphene has attracted increased interest in the field of nan...
Beginning with an introduction to carbon-based nanomaterials, their electronic properties, and gener...
The quantum transport properties of graphene nanoribbon networks are investigated using first-princi...
This chapter focuses on the general theory of the electron transport properties of carbon nanotubes,...
Graphene, a one atom-thick layer of carbon arranged in a honeycomb lattice, has sparked out intense ...
Continuous-time quantum walk describes the propagation of a quantum particle (or an excitation) evo...
We report a first-principles investigation of transport through longitudinal unzipped carbon nanotub...
The massless Dirac particle moving at the speed of light has been a fascinating subject in relativis...
Artificial graphene consisting of honeycomb lattices other than the atomic layer of carbon has been ...
Quantum computation is a new computational paradigm which can provide fundamentally faster computati...
Abstract We present a tutorial introduction into the structure and electronic properties of carbon n...