Abstract
It is shown theoretically that sufficiently strong optical initiation (pulse duration 1–4 μsec) of a chain reaction in a cooled (to 100–150 °K) hydrogen–fluorine mixture ensures that the HF laser radiation energy is emitted mainly as a short pulse lasting a few tens of nanoseconds. The predicted reaction regime is characterized by a high yield of coherent radiation and is of interest in potential applications of HF lasers in controlled thermonuclear fusion systems.
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