We describe the results of a theoretical study of transport through gated metallic graphene nanoribbons using a nonequilibrium Green function method. Although analogies with quantum field theory predict perfect transmission of chiral fermions through gated regions in one dimension, we find perfect reflection of chiral fermions in armchair ribbons for specific configurations of the gate. This effect should be measurable in narrow graphene constrictions gated by a charged carbon nanotube
e study the effect of electron-electron interaction and spin on electronic and transport properties ...
The paper discusses the chiral tunnelling of charge carriers through double barrier structure in twi...
The energetic stability, electronic and magnetic properties of chiral graphene nanoribbons (GNRs) wi...
We describe the results of a theoretical study of transport through gated metallic graphene nanoribb...
We describe the results of a theoretical study of transport through gated metallic graphene nanoribb...
Abstract. Graphene has become a promising material for technological applications and research in f...
Abstract. Graphene has become a promising material for technological applications and research in f...
We study Andreev reflection in graphene nanoribbon/superconductor hybrid junctions. By using a tight...
In this thesis, we focus on different aspects of electron transport in nanostructured graphene (such...
ABSTRACT: The unique ultrarelativistic, massless, nature of electron states in two-dimensional exten...
We explore the chiral transmission of electrons across graphene heterojunctions for electronic switc...
The paper discusses the chiral tunnelling of charge carriers through double barrier structure in twi...
We present first-principles transport calculations of graphene nanoribbons with chemically reconstru...
26 pages, 12 figuresWe revisit the problem of electron transport in clean and disordered zigzag grap...
26 pages, 12 figuresWe revisit the problem of electron transport in clean and disordered zigzag grap...
e study the effect of electron-electron interaction and spin on electronic and transport properties ...
The paper discusses the chiral tunnelling of charge carriers through double barrier structure in twi...
The energetic stability, electronic and magnetic properties of chiral graphene nanoribbons (GNRs) wi...
We describe the results of a theoretical study of transport through gated metallic graphene nanoribb...
We describe the results of a theoretical study of transport through gated metallic graphene nanoribb...
Abstract. Graphene has become a promising material for technological applications and research in f...
Abstract. Graphene has become a promising material for technological applications and research in f...
We study Andreev reflection in graphene nanoribbon/superconductor hybrid junctions. By using a tight...
In this thesis, we focus on different aspects of electron transport in nanostructured graphene (such...
ABSTRACT: The unique ultrarelativistic, massless, nature of electron states in two-dimensional exten...
We explore the chiral transmission of electrons across graphene heterojunctions for electronic switc...
The paper discusses the chiral tunnelling of charge carriers through double barrier structure in twi...
We present first-principles transport calculations of graphene nanoribbons with chemically reconstru...
26 pages, 12 figuresWe revisit the problem of electron transport in clean and disordered zigzag grap...
26 pages, 12 figuresWe revisit the problem of electron transport in clean and disordered zigzag grap...
e study the effect of electron-electron interaction and spin on electronic and transport properties ...
The paper discusses the chiral tunnelling of charge carriers through double barrier structure in twi...
The energetic stability, electronic and magnetic properties of chiral graphene nanoribbons (GNRs) wi...
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