Correlation between Electronic Polarizabilities of Ions and Ratio of Their Radii in Alkali Halides

Abstract: Optical properties of ionic crystals are often described in terms of an approach based on the additivity rule. The approach assumes that the electronic polarizability assigned to each ion remains unchanged in all crystals containing this ion and that the electronic polarizability of the crystal is the sum of the polarizabilities of individual ions. If a crystal possesses the cubic symmetry, the optical susceptibility is related to polarizabilities of its constituent ions by the Clausius-Mossotti relation. The … Show more

“…Table l presents values of electronic polarizabilities and effective charge parameter e*/e of the salts introduced by Szigeti (1949, 1950) for the potassium and rubidium halides. Kucharczyk (1990) has recently reported a correlation between the electronic polarizabilities of ions and their radii, in which the rubidium salts were not included. The Eorrelation follows a power law.…”

A study on the influence of the cations and anions on the electrical conductivity in thin films of potassium and rubidium halides

“…Table l presents values of electronic polarizabilities and effective charge parameter e*/e of the salts introduced by Szigeti (1949, 1950) for the potassium and rubidium halides. Kucharczyk (1990) has recently reported a correlation between the electronic polarizabilities of ions and their radii, in which the rubidium salts were not included. The Eorrelation follows a power law.…”

A study on the influence of the cations and anions on the electrical conductivity in thin films of potassium and rubidium halides

Analysis of linear and non-linear polarizabilities of alkali-halide crystals

Ionic sizes and strain derivative of electronic susceptibility in alkali halides