Advanced iodine laser concepts
- 1 September 1981
- journal article
- Published by Institute of Electrical and Electronics Engineers (IEEE) in IEEE Journal of Quantum Electronics
- Vol. 17 (9) , 1809-1816
- https://doi.org/10.1109/jqe.1981.1071333
Abstract
The essential features of an advanced iodine laser are outlined. These are governed primarily by the proper choice of the stored inversion density of an amplifier and also by the means to enhance the energy extraction efficiency to values in excess of 50 percent. With these measures an amplifier chain with output energies in the kJ range and overall system efficiencies of almost 0.2 percent can be designed. This value is twice as high as that now achieved. As the laser-fusion experiments require a greater pulse duration variability than hitherto obtained, an oscillator pumped by an excimer laser is developed, allowing chain output pulse durations in the range from some 100 ps to several ns. The frequency conversion of iodine laser light by nonlinear interaction in crystals is also investigated.Keywords
This publication has 12 references indexed in Scilit:
- Theory of high efficiency third harmonic generation of high power Nd-glass laser radiationOptics Communications, 1980
- Demonstration of high efficiency third harmonic conversion of high power Nd-glass laser radiationOptics Communications, 1980
- Generation of higher harmonics of iodine laser radiationOptics Communications, 1980
- Suppression of self-focusing through low-pass spatial filtering and relay imagingApplied Optics, 1978
- Pressure induced frequency shifts in the atomic iodine laserOptics Communications, 1978
- A saturable absorber for the iodine laserOptics Communications, 1976
- Pressure Broadening of the 1.3 μm Iodine Laser LineZeitschrift für Naturforschung A, 1976
- The asterix III pulsed high-power iodine laserIEEE Journal of Quantum Electronics, 1976
- Short-pulse iodine laserIl Nuovo Cimento B (1971-1996), 1976
- Refractive Indices of Ammonium Dihydrogen Phosphate and Potassium Dihydrogen Phosphate between 2000 Å and 15 μJournal of the Optical Society of America, 1964