Add to ORKGThe phase diagram of quantum electron bilayers in zero magnetic field is obtained using density functional theory. For large electron densities the system is in the liquid phase, while for smaller densities the liquid may freeze (Wigner crystallization) into four different crystalline phases; the lattice symmetry and the critical density depend on the interlayer distance. The phase boundaries between different Wigner crystals consist of both first- and second-order transitions, depending on the phases involved, and join the freezing curve at three different triple points
We study a model that describes Wigner crystallization of electrons in low-dimensional solids. Restr...
The influence of mass-asymmetry and finite layer width in phase-transition from the liquid-state to ...
We study the transition between liquid and solid electron phases of a two-dimensional quantum dot by...
The phase diagram of quantum electron bilayers in zero magnetic field is obtained using density func...
The phase diagram of quantum electron bilayers in zero magnetic field is obtained using density fun...
We study the Wigner crystallization in semiconductor quantum wires within the density functional app...
We show that the density for Wigner crystallization to occur for the two-dimensional electron liquid...
We show that the density for Wigner crystallization to occur for the two-dimensional electron liquid...
We study the ground-state structure of electronic-like bilayers, where different phases compete upon...
We study the Wigner crystallization in semiconductor quantum wires within the density-functional app...
We analyze the phase transition of a strictly two-dimensional electron crystal (Wigner lattice) to a...
A two-dimensional electron system is expected to form a Wigner lattice at zero temperature but at ve...
A two-dimensional electron system is expected to form a Wigner lattice at zero temperature but at ve...
Electron systems in the quantum Hall regime change from a liquid state to a Wigner crystal state as ...
We study a model that describes Wigner crystallization of electrons in low-dimensional solids. Restr...
We study a model that describes Wigner crystallization of electrons in low-dimensional solids. Restr...
The influence of mass-asymmetry and finite layer width in phase-transition from the liquid-state to ...
We study the transition between liquid and solid electron phases of a two-dimensional quantum dot by...
The phase diagram of quantum electron bilayers in zero magnetic field is obtained using density func...
The phase diagram of quantum electron bilayers in zero magnetic field is obtained using density fun...
We study the Wigner crystallization in semiconductor quantum wires within the density functional app...
We show that the density for Wigner crystallization to occur for the two-dimensional electron liquid...
We show that the density for Wigner crystallization to occur for the two-dimensional electron liquid...
We study the ground-state structure of electronic-like bilayers, where different phases compete upon...
We study the Wigner crystallization in semiconductor quantum wires within the density-functional app...
We analyze the phase transition of a strictly two-dimensional electron crystal (Wigner lattice) to a...
A two-dimensional electron system is expected to form a Wigner lattice at zero temperature but at ve...
A two-dimensional electron system is expected to form a Wigner lattice at zero temperature but at ve...
Electron systems in the quantum Hall regime change from a liquid state to a Wigner crystal state as ...
We study a model that describes Wigner crystallization of electrons in low-dimensional solids. Restr...
We study a model that describes Wigner crystallization of electrons in low-dimensional solids. Restr...
The influence of mass-asymmetry and finite layer width in phase-transition from the liquid-state to ...
We study the transition between liquid and solid electron phases of a two-dimensional quantum dot by...