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Binding theory

Lattice vibrations are calculated by applying the second order perturbation theory approach of Varma and Weber , thereby combining first principles short range force constants with the electron-phonon coupling matrix arising from a tight-binding theory. [Pg.213]

In order to determine the phonon dispersion of CuZn and FeaNi we made use of an expanded tight binding theory from Varma and Weber . In the framework of a second order perturbation theory the dynamical matrix splits in two parts. The short range part can be treated by a force constant model, while the T>2 arising from second order perturbation theory is given by... [Pg.214]

Table 5 Surface energies, calculated from the tight-binding theory (TB), by the embedded-atom method (EAM), or by modified embedded atom method (MEAM), compared to experiment. Energies are given in units of ijm . Table 5 Surface energies, calculated from the tight-binding theory (TB), by the embedded-atom method (EAM), or by modified embedded atom method (MEAM), compared to experiment. Energies are given in units of ijm .
Tlie suffices i and J refer to individual atoms and S and Sj to the species of the atoms involved. The summation over j extends over those neighbors of the atom i for which ry, the separation of atoms i and J, is within the cutoff radii of these potentials. The second term in Equation (la) is the attractive many-body term and both V and are empirically fitted pair potentials. A Justification for the square root form of the many-body function is provided in the framework of a second moment approximation of the density of states to the tight-binding theory incorporating local charge conservation in this framework the potentials represent squares of the hopping integrals (Ackland, et al. 1988). [Pg.357]

In order to obtain a better model for the molecular bond, [Santos et al., 2006] employed the extended Hiickel, or tight binding, theory. For the breaking of the bond in a diatomic molecule according to the schemes... [Pg.49]

Here the indices a and b stand for the valence orbitals on the two atoms as before, n is a number operator, c+ and c are creation and annihilation operators, and cr is the spin index. The third and fourth terms in the parentheses effect electron exchange and are responsible for the bonding between the two atoms, while the last two terms stand for the Coulomb repulsion between electrons of opposite spin on the same orbital. As is common in tight binding theory, we assume that the two orbitals a and b are orthogonal we shall correct for this neglect of overlap later. The coupling Vab can be taken as real we set Vab = P < 0. [Pg.49]

APPENDIX. CALCULATION OF THE DENSITY OF ELECTRONIC STATES WITHIN THE TIGHT BINDING THEORY BY THE METHOD OF MOMENTS... [Pg.241]

In a follow-up study, Malola et al. [126] used density-functional tight-binding theory to explore the structural, chemical and dynamical trends in a graphene sample formed by merging two graphene edges with the same chirality but different ori-... [Pg.520]

DFTB Density functional tight-binding theory... [Pg.550]

SCC-DFTB Self-consistent charge density functional tight-binding theory SCF Self-consistent field... [Pg.554]

Keywords dehydration, dehydrogenation, nanoparticles, zirconia, anion impurity, hydrogen, tight-binding theory, electronic structure. [Pg.499]

We use the tight-binding theory [7-9]. In the theory of SPD-bonded systems the electronic eigenstates are written in terms of a basis set consisting of a single S state, five D states of each metal atom, three P states on each anion atom of... [Pg.499]

M. van Schilfgaarde and A. Sher, Tight-binding theory and elastic constants, Phys. Rev. B36, 4375 (1987). [Pg.588]

W. A. Harrison and J. Tersoff, Tight-binding theory of heterojunction band lineups and interface dipoles, J. Vac. Sci. and Technol. B4, 1068 (1986). [Pg.589]

The band structure of a three-dimensional solid, such as a semiconductor crystal, can be obtained in a similar fashion to that of a polyene. Localized molecular orbitals are constructed based on an appropriate set of valence atomic orbitals, and the effects of delocalization are then incorporated into the molecnlar orbital as the number of repeat units in the crystal lattice is increased to infinity. This process is widely known to the chemical conununity as extended Hiickel theory (see Extended Hiickel Molecular Orbital Theory). It is also called tight binding theory by physicists who apply these methods to calcnlate the band structures of semiconducting and metallic solids. [Pg.4362]

The relative importance of the Coulomb interaction versus the band structure is a classic problem of the field. In tight-binding theory, the ir-electron band structure extends over a band width. [Pg.115]

Binding Theory. The binding theory is based on the equilibrium between a ligand in solution L and a ligand on the protein P surface L(P)... [Pg.294]

See other pages where Binding theory is mentioned: [Pg.375]    [Pg.59]    [Pg.59]    [Pg.61]    [Pg.63]    [Pg.65]    [Pg.49]    [Pg.298]    [Pg.197]    [Pg.434]    [Pg.79]    [Pg.79]    [Pg.279]    [Pg.391]    [Pg.5]    [Pg.162]    [Pg.636]    [Pg.499]    [Pg.145]    [Pg.149]    [Pg.215]    [Pg.150]    [Pg.499]    [Pg.114]    [Pg.619]    [Pg.61]    [Pg.61]   


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