Add to ORKGIn this article we discuss the Slater–Koster (SK) tight-binding (TB) method from the perspective of our own developments and applications to this method. We first present an account of our work in constructing TB Hamiltonians and applying them to a variety of calculations which require an accurate representation of the electronic energy bands and density of states. In the second part of the article we present the Naval Research Laboratory TB method, wherein we demonstrate that this elaborate scheme can accurately account for both the band structure and total energy of a given system. The SK parameters generated by this method are transferable to other structures and provide the means for performing computationally demanding calculations of ...
The calculations of electronic transport coefficients and optical properties require a very dense in...
The calculations of electronic transport coefficients and optical properties require a very dense in...
We use the tight-binding and the k→ · p→ methods to compute the energy dispersion relations and the ...
The tight-binding method attempts to represent the electronic structure of condensed matter using a ...
We present a rigorous bottom-up approach for the derivation of the electronic structure part of tigh...
Tight-binding or linear combination of atomic orbitals is a method for computing the electronic stru...
We present a rigorous bottom-up approach for the derivation of the electronic structure part of tigh...
We present the Tight-Binding Studio (TB Studio) software package that calculates the different param...
Abstract: We present a new electronic structure approximation called Tight Binding Configu-ration In...
We propose a novel, special purpose semiempirical tight binding (TB) method for the calculation of s...
Calculating the electronic structure of systems involving very different length scales presents a ch...
Journal ArticleQuantum-mechanical methods have become increasingly reliable as a complementary tool ...
Calculating the electronic structure of systems involving very different length scales presents a ch...
International audienceEven though recent developments in electronic structure calculations based on ...
Tight-binding or linear combination of atomic orbitals is a method for computing the electronic stru...
The calculations of electronic transport coefficients and optical properties require a very dense in...
The calculations of electronic transport coefficients and optical properties require a very dense in...
We use the tight-binding and the k→ · p→ methods to compute the energy dispersion relations and the ...
The tight-binding method attempts to represent the electronic structure of condensed matter using a ...
We present a rigorous bottom-up approach for the derivation of the electronic structure part of tigh...
Tight-binding or linear combination of atomic orbitals is a method for computing the electronic stru...
We present a rigorous bottom-up approach for the derivation of the electronic structure part of tigh...
We present the Tight-Binding Studio (TB Studio) software package that calculates the different param...
Abstract: We present a new electronic structure approximation called Tight Binding Configu-ration In...
We propose a novel, special purpose semiempirical tight binding (TB) method for the calculation of s...
Calculating the electronic structure of systems involving very different length scales presents a ch...
Journal ArticleQuantum-mechanical methods have become increasingly reliable as a complementary tool ...
Calculating the electronic structure of systems involving very different length scales presents a ch...
International audienceEven though recent developments in electronic structure calculations based on ...
Tight-binding or linear combination of atomic orbitals is a method for computing the electronic stru...
The calculations of electronic transport coefficients and optical properties require a very dense in...
The calculations of electronic transport coefficients and optical properties require a very dense in...
We use the tight-binding and the k→ · p→ methods to compute the energy dispersion relations and the ...