The Interstellar N/O Abundance Ratio: Evidence for Local Infall?
Abstract
Sensitive measurements of the interstellar gas-phase oxygen abundance have revealed a slight oxygen deficiency ( 15%) toward stars within 500 pc of the Sun as compared to more distant sightlines. Recent FUSE observations of the interstellar gas-phase nitrogen abundance indicate larger variations, but no trends with distance were reported due to the significant measurement uncertainties for many sightlines. By considering only the highest quality (≥ 5 σ) N/O abundance measurements, we find an intriguing trend in the interstellar N/O ratio with distance. Toward the seven stars within 500 pc of the Sun, the weighted mean N/O ratio is 0.217 0.011, while for the six stars further away the weighted mean value (N/O = 0.142 0.008) is curiously consistent with the current Solar value (N/O = 0.138+0.20-0.18). It is difficult to imagine a scenario invoking environmental (e.g., dust depletion, ionization, etc.) variations alone that explains this abundance anomaly. Is the enhanced nitrogen abundance localized to the Solar neighborhood or evidence of a more widespread phenomenon? If it is localized, then recent infall of low metallicity gas in the Solar neighborhood may be the best explanation. Otherwise, the N/O variations may be best explained by large-scale differences in the interstellar mixing processes for AGB stars and Type II supernovae.
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