First-principles investigation of the bonding, optical and lattice dynamical properties of CeO2

The lattice dynamics of room temperature tetragonal phase of CaFe 2 As 2 is studied by first-principles calculations based on the ab initio pseudopotential and plane wave basis. Phonon spectrum throughout the Brillouin zone is obtained using the density-functional perturbation theory within the line

An ab initio pseudopotential plane wave method using linear response approach has been employed to study the lattice dynamics of two cubic antiperovskites AsNBa 3 and SbNBa 3 . The bulk properties, elastic constants, phonon dispersion curves, phonon density of states and temperature dependent thermo

We investigate the electronic structures, optical properties and perform a population analysis of the highpressure phase of boron (γ -B 28 ) by the norm-conserving pseudopotential density functional method. We employ the Perdew-Burke-Eruzerhof (PBE) form of the generalized gradient approximation (GG

Electronic structure and optical properties of CuGaS 2 are calculated using the full potential linearized augmented plane wave plus local orbitals method. The calculated equilibrium lattice is in reasonable agreement with the experimental data. The electronic structures indicate that CuGaS 2 is a se