Add to ORKGIn this chapter, we present developments in quantum transport in one-dimensional (1D) semiconductor nanostructures during the last decade or so where several important results were reported, including observation of the incipient Wigner lattice, interaction-induced spin polarisation and fractional quantised states in the absence of a magnetic field in weakly confined quasi-1D quantum wires
We describe some of the physics peculiar to electron transport in quasi-one-dimensional systems in s...
Nanoscale wires and molecules have remarkable electrical properties that make them well suited for n...
Upon increasing the electron density in a quantum wire, the one-dimensional electron system undergoe...
In this chapter, we present developments in quantum transport in one-dimensional (1D) semiconductor ...
ABSTRACT In this Perspective article, we present recent developments on interaction effects on the ...
Since the initial realisation of split-gate device and quantised plateaus of conductance in one-dime...
Interactions between physical bodies constantly affect their properties. This thesis presents a theo...
We study the low-temperature transport properties of 1D quantum wires as the confinement strength V-...
The electronic transport properties of mesoscopic one-dimensional (1D) devices have attracted signif...
Interactions between electrons in solids are often behind exciting novel effects such as ferromagnet...
In this thesis we study quantum transport in several one-dimensional systems with strong electronic ...
This thesis experimentally investigates electron low-temperature transport phenomena in one dimensio...
Zero length quantum wires (or point contacts) exhibit unexplained conductance structure close to 0.7...
<p>The 1D Wigner crystal is a long sought after strongly correlated quantum state. Here we present e...
We investigate the linear DC transport properties of one-dimensional quantum dots that are immersed ...
We describe some of the physics peculiar to electron transport in quasi-one-dimensional systems in s...
Nanoscale wires and molecules have remarkable electrical properties that make them well suited for n...
Upon increasing the electron density in a quantum wire, the one-dimensional electron system undergoe...
In this chapter, we present developments in quantum transport in one-dimensional (1D) semiconductor ...
ABSTRACT In this Perspective article, we present recent developments on interaction effects on the ...
Since the initial realisation of split-gate device and quantised plateaus of conductance in one-dime...
Interactions between physical bodies constantly affect their properties. This thesis presents a theo...
We study the low-temperature transport properties of 1D quantum wires as the confinement strength V-...
The electronic transport properties of mesoscopic one-dimensional (1D) devices have attracted signif...
Interactions between electrons in solids are often behind exciting novel effects such as ferromagnet...
In this thesis we study quantum transport in several one-dimensional systems with strong electronic ...
This thesis experimentally investigates electron low-temperature transport phenomena in one dimensio...
Zero length quantum wires (or point contacts) exhibit unexplained conductance structure close to 0.7...
<p>The 1D Wigner crystal is a long sought after strongly correlated quantum state. Here we present e...
We investigate the linear DC transport properties of one-dimensional quantum dots that are immersed ...
We describe some of the physics peculiar to electron transport in quasi-one-dimensional systems in s...
Nanoscale wires and molecules have remarkable electrical properties that make them well suited for n...
Upon increasing the electron density in a quantum wire, the one-dimensional electron system undergoe...