We show that the pseudospin being an additional degree of freedom for carriers in graphene can be efficiently controlled by means of the electron-electron interactions which, in turn, can be manipulated by changing the substrate. In particular, an out-of-plane pseudospin component can occur leading to a zero-field Hall current as well as to polarization-sensitive interband optical absorption
We investigate pseudospin-selective ultrafast optical excitation in monolayer graphene. We track the...
The basic properties of π-electrons near the Fermi level in graphene are reviewed from a point of vi...
DoctorDirac materials, graphene and topological insulators, are the matters that have a linear energ...
We show that the pseudospin being an additional degree of freedom for carriers in graphene can be ef...
Spin manipulation is one of the most critical challenges to realize spin-based logic devices and spi...
We investigate the photoconductivity of graphene within the relaxation time approximation. In the pr...
Electrons in graphene are described by relativistic Dirac–Weyl spinors with a two-component pseudosp...
We show that opacity of a clean multilayer graphene flake depends on the helicity of the circular po...
Pseudospin, an additional degree of freedom emerging in graphene as a direct consequence of its hone...
Pseudospin, an additional degree of freedom inherent in graphene, plays a key role in understanding ...
ne of the unusual electronic charac-teristics of graphene is that the direc-tion of motion of its ch...
The prospect of transporting spin information over long distances in graphene, possible because of i...
We propose a nonmagnetic, pseudospin-based version of a spin valve, in which the pseudospin polariza...
Electronic pseudospin degrees of freedom in two-dimensional materials exhibit unique carrier-field i...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Physics, 2008.Includes bibliographi...
We investigate pseudospin-selective ultrafast optical excitation in monolayer graphene. We track the...
The basic properties of π-electrons near the Fermi level in graphene are reviewed from a point of vi...
DoctorDirac materials, graphene and topological insulators, are the matters that have a linear energ...
We show that the pseudospin being an additional degree of freedom for carriers in graphene can be ef...
Spin manipulation is one of the most critical challenges to realize spin-based logic devices and spi...
We investigate the photoconductivity of graphene within the relaxation time approximation. In the pr...
Electrons in graphene are described by relativistic Dirac–Weyl spinors with a two-component pseudosp...
We show that opacity of a clean multilayer graphene flake depends on the helicity of the circular po...
Pseudospin, an additional degree of freedom emerging in graphene as a direct consequence of its hone...
Pseudospin, an additional degree of freedom inherent in graphene, plays a key role in understanding ...
ne of the unusual electronic charac-teristics of graphene is that the direc-tion of motion of its ch...
The prospect of transporting spin information over long distances in graphene, possible because of i...
We propose a nonmagnetic, pseudospin-based version of a spin valve, in which the pseudospin polariza...
Electronic pseudospin degrees of freedom in two-dimensional materials exhibit unique carrier-field i...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Physics, 2008.Includes bibliographi...
We investigate pseudospin-selective ultrafast optical excitation in monolayer graphene. We track the...
The basic properties of π-electrons near the Fermi level in graphene are reviewed from a point of vi...
DoctorDirac materials, graphene and topological insulators, are the matters that have a linear energ...
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