INFRARED COLLISION-INDUCED ABSORPTION BY N-2 NEAR 4.3 MU-M FOR ATMOSPHERIC APPLICATIONS - MEASUREMENTS AND EMPIRICAL MODELING

Accurate measurements of collision-induced absorption by pure nitrogen in the fundamental band near 4.3 mu m have been made in the 0-10 atm and 230-300 K pressure and temperature ranges, respectively. A Fourier -transform spectrometer was used with a resolution of 0.5 cm(-1). The current measurements, which agree well with previous ones but are more precise, reveal that weak features are superimposed on the broad N-2 continuum. These features have negligible temperature dependence, and their origin is not clear at the present time. Available experimental data in the 190-300 K temperature range have been used to build a simp le empirical model that is suitable for use to compute atmospheric N-2 absorption. Tests indicate that this model is accurate unlike the est imates produced by widely used atmospheric transmission codes. (C) 199 6 Optical Society of America