Multiple-photon isotope separation in SF6: Effect of laser pulse shape and energy, pressure, and irradiation geometry
- 15 November 1977
- journal article
- research article
- Published by AIP Publishing in The Journal of Chemical Physics
- Vol. 67 (10) , 4545-4556
- https://doi.org/10.1063/1.434595
Abstract
The isotopically selective dissociation of SF6 induced by intense CO2 laser radiation has been experimentally investigated. These experiments demonstrate that the reaction yield can be greatly enhanced by designing the reaction cells for better photon utilization. It was found that although the probability of reaction increases with laser energy fluence, the reaction probability is almost independent of the pulse shape or the instantaneous laser intensity. Experiments over a range of pressures showed that collisions decrease the probability of reaction.Keywords
This publication has 19 references indexed in Scilit:
- Energy and pressure dependence of the CO2 laser induced dissociation of sulfur hexafluorideApplied Physics A, 1977
- Energy dependence of SF6 dissociation by pulsed CO2 laser radiationChemical Physics Letters, 1976
- Towards an explanation of collisionless multiple-photon laser dissociation of SF6Optics Communications, 1976
- Calculation of vibrational level populations in multiphoton absorption processesThe Journal of Chemical Physics, 1976
- D4 Dependence of infrared dissociation of SF6 on laser pulse energyOptics Communications, 1976
- A model for isotope separation via molecular multiphoton photodissociationChemical Physics Letters, 1976
- Separation of isotopes in a strong infrared laser fieldSoviet Journal of Quantum Electronics, 1976
- Laser isotope separation (review). IISoviet Journal of Quantum Electronics, 1976
- Sulfur isotope enrichment in SF6 by high intensity CO2 laser radiationOptics Communications, 1976
- Isotopic enrichment of SF6 in S34 by multiple absorption of CO2 laser radiationApplied Physics Letters, 1975