Theoretical Investigation of the Excitation Structure and Optical Properties of Titanium, Vanadium, and Their Oxides.
Abstract
An investigation of the electronic excitation structure of the transition metal oxides was begun which included the effects of correlation of the excited electron with the surrounding medium, relaxation of the electrons around the hole left by the excitation, and the interaction of the excited electron with the hole. Recent theoretical and experimental work has shown that all these effects must be included in order to obtain a detailed understanding of the excitation structure, optical properties, lattice dynamics, and dielectric response of these oxides and many other materials. Local orbitals instead of the usual spatially extended Bloch representation were used. The local orbitals are especially useful in describing the d-electrons, which are localized in position and energy. The extensive codes necessary for the efficient calculation of multicenter integrals were constructed and assembled during the past year. The methods necessary for transforming the band states from the Bloch to the local orbitals representation were developed, and the methods for diagonalizing very large array were investigated. (Author)
Document Details
- Document Type
- Technical Report
- Publication Date
- Jul 08, 1979
- Accession Number
- ADA074222
Entities
People
- Martin W. Ribarsky
Organizations
- Georgia Tech