Identification and properties of molecular systems of potential use in solar-pumped lasers
Abstract
The concepts and computational tools of theortical chemistry are used to investigate molecular properties needed in direct solar-pumped lasers. Compounds of the type RR'CXY, with R and R' organic groups, and X and Y halide atoms were identified as likely candidates because of their highly enhanced absorption coefficients over compounds with a single halide atom. The use of a combination of vibrational excitation followed by electronic excitation to enhance quantum yields at certain wavelengths is indicated. A self-consistent eikonal approximation to state-to-state transitions was tested for CH3I and is useful for other problems involving electronic energy and charge transfer. An approach to calculate potential energy surfaces and transition dipoles was developed which is based on the generation of eigenstates of the nonrelativisitc Hamiltonian followed by incorporation of the spin-orbit coupling by configuration interaction.
- Publication:
-
Final Technical Report
- Pub Date:
- January 1985
- Bibcode:
- 1985fugv.reptR....M
- Keywords:
-
- Dissociation;
- Polyatomic Molecules;
- Quantum Mechanics;
- Reaction Products;
- De Broglie Wavelengths;
- Eikonal Equation;
- Excitation;
- Hamiltonian Functions;
- Hartree Approximation;
- Lasers and Masers