Limitation of CO<sup>2</sup> laser-induced gas breakdown

Francois J. Prinsloo; Stephanus P. van Heerden; Lourens R. Botha

doi:10.1117/12.175675

1 September 1994 Limitation of CO₂ laser-induced gas breakdown

Francois J. Prinsloo, Stephanus P. van Heerden, Lourens R. Botha

Author Affiliations +

Optical Engineering, Vol. 33, Issue 9, (September 1994). https://doi.org/10.1117/12.175675

Abstract

To obtain economical extraction of ²³⁵U in the molecular laser isotope separation (MLIS) process, 16-μm laser beams must be generated in a parahydrogen Raman cell with high repetition rates and sufficient intensity. Because the intensities of the 16-μm laser beams are dependent on the intensity of the incoming pump laser beams, the intensity of the CO₂ lasers must be kept as high as possible. The maximum intensity has, however, been found to be controlled by the onset of gas breakdown in the Raman cell at too low a level for efficient Raman conversion. Through tests, the origin of gas breakdown in a 2-kHz-repetition-rate Raman cell is identified as particle contamination. The effect of the degree of contamination is determined and compared with experimental results. Conditions are set and modifications implemented on the Raman cell to ensure efficient Raman conversion.

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Francois J. Prinsloo, Stephanus P. van Heerden, and Lourens R. Botha "Limitation of CO₂ laser-induced gas breakdown," Optical Engineering 33(9), (1 September 1994). https://doi.org/10.1117/12.175675

Published: 1 September 1994

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