Ab initio calculation of many-particle effects in the optical spectra of semiconductors

An equation been derived to calculate, ab inifio, the frequencies and intensities of a resonant Raman spectrum from the transform theory of resonance Raman scattering. This equation has been used to calculate the intensities of the ultraviolet resonance Raman spectra from the first n -~\* excited st

Tatewaki and Huzinaga's [J. Comput. Chem. 1, 205 (198011 basis sets, constructed to minimize superposition error, were used to calculate infrared (IR) frequencies and intensities. They were found inferior to Pople bases such as 3-21G and 6-31G\*. The question of whether a theoretical vibrational spe

interactions is presented, in which a ctassica1 mode1 due to Kirkwood is used to derive an expression for the potentisf affecting a molecule due to a solvent. From this the quantum rne~h~n~c~ h~m~itoni~n for the mofecule in the presence of the solvent can be deduced, and a variation& minimizatian of

A theory of solvent-solute interactions is presented. in which a classical model due to Kirkwood is used to derive ;u) expression for the potential affecting a molecule due to a solvent. From this the quantum mechanical hamiltonian for the molecule in the presence of the solvent can be deduced, and