Astronomy and Astrophysics – Astrophysics
Scientific paper
1997-09-27
Astronomy and Astrophysics
Astrophysics
35 pages, 11 figures, 6 tables; uses aaspp4.sty, psfig.sty; to appear in the Astrophysical
Scientific paper
10.1086/305491
Using Hubble Space Telescope ultraviolet and ground-based optical spectroscopy, we measure the C/O and N/O ratios of three metal-poor galaxies with similar metallicity but differing N/O. The C/O ratios estimated from C III] lambda1909 and [O III] lambda5007 lines are consistent with those measured from C II] lambda2326 and [O II] lambda3727 lines. We develop the use of the C^+/O^+ ratio as a reasonable substitute diagnostic of the carbon abundance in HII regions. The proximity of the C II] lambda2326 multiplet to the [O II] lambda3726,3729 lines makes these transitions a potential tool for measuring the carbon abundance in high-redshift objects. Derived chemical properties are consistent with a significant correlation between N and C abundances in metal-poor extragalactic HII regions. This result is unexpected if the dispersion in N/O among galaxies of similar metallicity is caused by localized, temporary chemical enrichments from massive stars. The presence of a correlation suggests that the majority of N and C production is coupled, as expected from chemical evolution models where C is produced predominantly by low mass stars and N is produced predominantly by intermediate mass stars. Since the occurance of localized chemical "pollution" in star-forming galaxies appears to be low, the relative overabundance of N in some galaxies compared to others at similar metallicity is most plausibly interpreted as an indicator of the global, secular chemical enrichment history. The N/O and perhaps the C/O ratios can be used as a ``clock'' to estimate the time since the last major episode of star formation.
Kobulnicky Henry A.
Skillman Evan D.
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