Add to ORKGThe Fermi surface of graphene contains points where the connection between excitation energy and crystal momentum is linear, similar to massless or ultrarelativistic fermions. This is important for the physical properties of this material. In this thesis the candidate has combined a study of the theoretical and experimental literature with his own calculations of the excitation spectra of monolayer, bilayer and multilayer graphene
Graphene, a monolayer of graphite, has been isolated in 2004 by Novoselov et al. [1]. Since then, it...
Single-layer graphene has been widely researched in recent years due to its perceived technological ...
We study the photoabsorption cross-section and Fermi-edge singularities (FES) in graphene. For filli...
The unique electronic behaviour of monolayer and bilayer graphene1,2 is a result of the unusual quan...
Monte Carlo simulation of a 2+1 dimensional model of voltage-biased bilayer graphene, consisting of ...
We show the presence of non-relativistic Lévy-Leblond fermions in flat three- and four-layers graphe...
We show the presence of non-relativistic Lévy-Leblond fermions in flat three- and four-layers graphe...
We show the presence of non-relativistic Lévy-Leblond fermions in flat three- and four-layers graphe...
We show the presence of non-relativistic Lévy-Leblond fermions in flat three- and four-layers graphe...
Graphene has been actively researched because its low energy electronic Hamiltonian is the relativis...
We describe a technique which allows a direct measurement of the relative Fermi energy in an electro...
The tight-binding model of electrons in graphene is reviewed. We derive low-energy Hamiltonians supp...
We study the photoabsorption cross-section and Fermi-edge singularities (FES) in graphene. For filli...
Graphene, a single sheet of graphite, has an unconventional electronic structure that can be describ...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Physics, 2011.Cataloged from PDF ve...
Graphene, a monolayer of graphite, has been isolated in 2004 by Novoselov et al. [1]. Since then, it...
Single-layer graphene has been widely researched in recent years due to its perceived technological ...
We study the photoabsorption cross-section and Fermi-edge singularities (FES) in graphene. For filli...
The unique electronic behaviour of monolayer and bilayer graphene1,2 is a result of the unusual quan...
Monte Carlo simulation of a 2+1 dimensional model of voltage-biased bilayer graphene, consisting of ...
We show the presence of non-relativistic Lévy-Leblond fermions in flat three- and four-layers graphe...
We show the presence of non-relativistic Lévy-Leblond fermions in flat three- and four-layers graphe...
We show the presence of non-relativistic Lévy-Leblond fermions in flat three- and four-layers graphe...
We show the presence of non-relativistic Lévy-Leblond fermions in flat three- and four-layers graphe...
Graphene has been actively researched because its low energy electronic Hamiltonian is the relativis...
We describe a technique which allows a direct measurement of the relative Fermi energy in an electro...
The tight-binding model of electrons in graphene is reviewed. We derive low-energy Hamiltonians supp...
We study the photoabsorption cross-section and Fermi-edge singularities (FES) in graphene. For filli...
Graphene, a single sheet of graphite, has an unconventional electronic structure that can be describ...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Physics, 2011.Cataloged from PDF ve...
Graphene, a monolayer of graphite, has been isolated in 2004 by Novoselov et al. [1]. Since then, it...
Single-layer graphene has been widely researched in recent years due to its perceived technological ...
We study the photoabsorption cross-section and Fermi-edge singularities (FES) in graphene. For filli...