The abundances of solid N2 and gaseous CO2 in interstellar dense molecular clouds

We present 2338-2322 cm(-1) (4.277-4.307 mum) infrared spectra of a number of mixed N(2)-containing molecular ices and demonstrate that the strength of the infrared forbidden band due to the N=N stretch near 2328 cm(-1) (4.295 mum) is extremely sensitive to the composition of the ice. The strength of the 2328 cm(-1) N(2) fundamental is significantly enhanced relative to that of pure N(2) ice when NH(3), H(2)O, or CO(2) are present, but it is largely unaffected by the presence of CO, CH(4), or O(2). We use the laboratory data in conjunction with Infrared Space Observatory (ISO) data that probe several lines of sight through dense molecular clouds to place limits on the abundance of interstellar solid phase N(2) and the composition of the ices. Deriving upper limits is complicated by the presence of overlapping absorptions due to CO(2) gas in the clouds and, in some cases, to photospheric CO in the background star. These upper limits are just beginning to be low enough to constrain interstellar grain models and the composition of possible N(2)-bearing interstellar ices. We outline the search criteria that will need to be met if solid interstellar N(2) is to be detected in the future. We also discuss some of the implications of the presence of warm CO(2) gas along the lines of sight to embedded protostars and demonstrate that its presence may help resolve certain puzzles associated with the previously derived gas/solid CO(2) ratios and the relative abundances of polar and nonpolar ices toward these objects. Finally, we briefly comment on the possible implications of these results for the interpretation of N(2) detections on outer solar system bodies.