Add to ORKGAbstract: A first principle derivation is presented of a Hubbard-like Hamiltonian describing the motion of electrons on a lattice of soft, non-orthogonal orbitals with a polarizable core. Non-orthogonality of the on-site orbitals is explicitly accounted for by expanding the Hamiltonian at different orders in the nearest neighbor overlap. The resulting Hamiltonian contains terms not included in the Hubbard Hamiltonian, such as non-site-diagonal e-e interactions and occupation-dependent hopping terms. The first principle approach we develop yields reliable a priori estimates of microscopic parameters and leads to the unambiguous definition of the reliability range of the proposed model. The properties of the Hamiltonian are investigated throu...
A theorem about the spin properties of the ground state and the ordering of the energy levels for di...
During the last few years, it became clear that the characterization of the nature of electron state...
Electron-lattice interactions are often considered not to play a major role in material's properties...
To understand strongly correlated systems, we must confront the many-body problem. This is practical...
A real-space method has been introduced to study the pairing problem within the generalized Hubbard ...
Optimizing various properties of materials have been under intensive focus for many decades. In rece...
The time evolution of two classes of systems is studied with real time molecular dynamics simulation...
An essential ingredient in many model Hamiltonians, such as the Hubbard model, is the effective elec...
We present the exact solution of a two-orbital Hubbard model on a two-site molecule for arbitrary el...
Cutting-edge technology needs small, ultrafast devices, operational in a wide range of regimes. This...
The title material has a quasi-one-dimensional electronic structure and is of considerable interest ...
The role played by the electron interactions in determining the properties of solids has been invest...
Originally, the Hubbard model has been derived for describing the behaviour of strongly-correlated e...
One of the central goals of condensed matter theory is to understand the behavior of electrons under...
We first study noninteracting electrons moving on corner-sharing tetrahedral lat-tices, which repres...
A theorem about the spin properties of the ground state and the ordering of the energy levels for di...
During the last few years, it became clear that the characterization of the nature of electron state...
Electron-lattice interactions are often considered not to play a major role in material's properties...
To understand strongly correlated systems, we must confront the many-body problem. This is practical...
A real-space method has been introduced to study the pairing problem within the generalized Hubbard ...
Optimizing various properties of materials have been under intensive focus for many decades. In rece...
The time evolution of two classes of systems is studied with real time molecular dynamics simulation...
An essential ingredient in many model Hamiltonians, such as the Hubbard model, is the effective elec...
We present the exact solution of a two-orbital Hubbard model on a two-site molecule for arbitrary el...
Cutting-edge technology needs small, ultrafast devices, operational in a wide range of regimes. This...
The title material has a quasi-one-dimensional electronic structure and is of considerable interest ...
The role played by the electron interactions in determining the properties of solids has been invest...
Originally, the Hubbard model has been derived for describing the behaviour of strongly-correlated e...
One of the central goals of condensed matter theory is to understand the behavior of electrons under...
We first study noninteracting electrons moving on corner-sharing tetrahedral lat-tices, which repres...
A theorem about the spin properties of the ground state and the ordering of the energy levels for di...
During the last few years, it became clear that the characterization of the nature of electron state...
Electron-lattice interactions are often considered not to play a major role in material's properties...