issue on radiation energy conversion in space, edited by K. Billman (New York, AIAA)). [21] Taylor, R.L. & Bitterman, S. (1967) Survey of Vibrational Relaxation Data for Processes Important in the CO2-N2 Laser System, AVCO, Research Report 282, Greenwich, CT; see also (1969) Review of Modem Physics, 41, pp. 26-47. [22] Hoffman, A.L. & Vlases, G.C. (1972) A simplified model for predicting gain, saturation, and pulse length for gasdynamic lasers, IEEE, Journal of Quantum Electronics, Vol. QE-8, pp. 46-53. [23] Vincenti, W.G. & Kruger, C.H., Jr (1965) Introduction to Physical Gas Dynamics (1st Edn.) Chs IV, V, XI (New York, Wiley). [24] Statz, H., Tang, C.L. & Koster, G.F. (1966) Transition probabilities between laser states in carbon dioxide, Journal of Applied Physics, hl, pp. 4278-4284. [25] Mitchell, A.G. & Zemansky, M.W. (1961) Resonance Radiation and Excited Atoms (1st Ed.), pp. 92-127 (New York, Cambridge University Press). [26] Yesil, O. & Christiansen, W.H. (1979) Solar pumping of carbon dioxide laser mixtures, Proceedings of Izmir International Symposium-II on Solar Energy Fundamentals and Applications, Izmir, Turkey. [27] Yesil, O. & Christiansen, W.H. (1979) Optical pumped carbon dioxide laser mixtures, Journal of Energy (AIAA), 3, pp. 315-318. [28] Munjee, S.A. & Christiansen, W.H. (1973) Mixed mode contributions to absorption in CO2 at 10.6 //, Applied Optics, 12, pp. 993-996.
RkJQdWJsaXNoZXIy MTU5NjU0Mg==