Add to ORKGThe charge density wave instability in one-dimensional semimetals is usually explained through a Peierls-like mechanism, where the coupling of electrons and phonons induces a periodic lattice distortion along certain modes of vibration, leading to a gap opening in the electronic band structure and to a lowering of the symmetry of the lattice. In this work, we study two prototypical Peierls systems: the one-dimensional carbon chain and the monatomic hydrogen chain with accurate ab initio calculations based on quantum Monte Carlo and hybrid density functional theory. We demonstrate that in one-dimensional semimetals at T=0, a purely electronic instability can exist independently of a lattice distortion. It is induced by spontaneous formation ...
It has been suggested that the metal-insulator transitions in a number of spinel materials with part...
Group-VIIB transition metal dichalcogenides (TMDCs) are known to be stabilized solely in a distorted...
The interplay between quantum lattice and electronic fluctuations in one-dimensional molecular cryst...
peer reviewedThe charge density wave instability in one-dimensional semimetals is usually explained ...
peer reviewedThe charge density wave instability in one-dimensional semimetals is usually explained ...
peer reviewedThe study of neutral electronic excitations directly probed by electron energy loss spe...
The study of neutral electronic excitations directly probed by electron energy loss spectroscopy exp...
AbstractWe review salient structural and electronic features associated with the concomitant Peierls...
International audience"Metallic" carbon nanotubes exhibit quasiparticle gaps when isolated from a sc...
AbstractWe review salient structural and electronic features associated with the concomitant Peierls...
We consider an electron-phonon system in two and three dimensions on square, hexagonal, and cubic la...
We show that there is pseudospin SU(2) symmetry in the one-dimensional tight-binding model with the ...
We studied the structural instabilities of one-dimensional (1D) and quasi-one-dimensional (Q1D) elec...
We studied the structural instabilities of one-dimensional (1D) and quasi-one-dimensional (Q1D) elec...
Using first-principle density-functional calculations, we investigate the competition between Peierl...
It has been suggested that the metal-insulator transitions in a number of spinel materials with part...
Group-VIIB transition metal dichalcogenides (TMDCs) are known to be stabilized solely in a distorted...
The interplay between quantum lattice and electronic fluctuations in one-dimensional molecular cryst...
peer reviewedThe charge density wave instability in one-dimensional semimetals is usually explained ...
peer reviewedThe charge density wave instability in one-dimensional semimetals is usually explained ...
peer reviewedThe study of neutral electronic excitations directly probed by electron energy loss spe...
The study of neutral electronic excitations directly probed by electron energy loss spectroscopy exp...
AbstractWe review salient structural and electronic features associated with the concomitant Peierls...
International audience"Metallic" carbon nanotubes exhibit quasiparticle gaps when isolated from a sc...
AbstractWe review salient structural and electronic features associated with the concomitant Peierls...
We consider an electron-phonon system in two and three dimensions on square, hexagonal, and cubic la...
We show that there is pseudospin SU(2) symmetry in the one-dimensional tight-binding model with the ...
We studied the structural instabilities of one-dimensional (1D) and quasi-one-dimensional (Q1D) elec...
We studied the structural instabilities of one-dimensional (1D) and quasi-one-dimensional (Q1D) elec...
Using first-principle density-functional calculations, we investigate the competition between Peierl...
It has been suggested that the metal-insulator transitions in a number of spinel materials with part...
Group-VIIB transition metal dichalcogenides (TMDCs) are known to be stabilized solely in a distorted...
The interplay between quantum lattice and electronic fluctuations in one-dimensional molecular cryst...