Performance of cw HF Chemical Laser with N2 or He Diluent

Abstract

Recent experimental results on the performance of a continuous HF (or DF) chemical laser are reported. In this device, an arc‐heated diluent is mixed in a plenum with SF₆ to provide F atoms. The mixture is expanded to form a supersonic jet into which H₂ (or D₂) is diffused. Population inversion and lasing are due to the reaction H₂+F=HF(v)+H; v≤3 and Δ H=−31.7 kcal. Power levels above 1 kW have been obtained in a N₂ diluent gas flow, and levels above 1.7 kW have been obtained in a He diluent gas flow. Specific power yields are 43 and 108 kW sec/lb for the N₂ and He systems, respectively. The variation of laser power and efficiency with cavity optical axis location and SF₆ mass flow are reported for both N₂ and He systems. A spectrum of the HF laser operating in a He flow is also presented that gives evidence of v=3 partial inversion.