Laser plasmadynamic energy conversion
Abstract
The generation of electrons ions by interacting an intense laser beam with cesium vapor is considered. Theoretical calculation shows that the conversion efficiency is as high as 40 percent if the entire photon energy is utilized in ionizing the cesium vapor that is generated initially by the incoming laser beam. An output voltage is expected to be generated across two electrodes, one of which is the liquid cesium, by keeping the other electrode at a different work function. Evaluation of the laser plasmadynamic (LPD) converter was performed using pulsed ruby and Nd-glass lasers. Although the results obtained to date indicate an efficiency smaller than that of theoretical predictions, an unoptimized LPD converter did demonstrate the capability of converting laser energy at large power levels. The limitations in the performance may by due to converter geometry, the types of lasers used, and other limitations inherent to the cesium plasma.
- Publication:
-
Laser Energy Conversion
- Pub Date:
- 1976
- Bibcode:
- 1976lec..conf..147S
- Keywords:
-
- Electricity;
- Energy Conversion Efficiency;
- Laser Applications;
- Plasma Dynamics;
- Cesium Vapor;
- Electric Propulsion;
- Laser Plasmas;
- Plasma Power Sources;
- Pulsed Lasers;
- Lasers and Masers