Bibcode
DOI
Vladilo, Giovanni; Molaro, Paolo; Bonifacio, Piercarlo; Centurión, M.
Bibliographical reference
The Astrophysical Journal, Volume 509, Issue 2, pp. 620-632.
Advertised on:
12
1998
Journal
Citations
41
Refereed citations
32
Description
Nitrogen lines of the N I lambda1134 and lambda1200 multiplets in the
damped Lyalpha (DLA) galaxies at z_abs = 2.309, 2.827, and 3.025 toward
the QSOs 0100+1300, 1425+6039, and 0347-3819, respectively, have been
detected by means of high-resolution spectra (R ~ 2 x 10^4) obtained
with 4 m class telescopes at ESO (La Silla, Chile) and the Observatorio
del Roque de los Muchachos (La Palma, Spain). The two N I multiplets
offer a considerable range in oscillator strengths and the possibility
of disentangling Lyalpha interlopers. The derived nitrogen abundances
for the three damped systems are [N/H] = -2.68 +/- 0.11, -1.57 +/- 0.09,
-2.07 +/- 0.13, respectively. The behavior of nitrogen relative to
iron-peak and alpha elements has been investigated by considering all
the extant N I determinations for a total of nine DLA galaxies. We have
estimated the fraction of iron locked into dust grains to convert the
observed [N/Fe] ratios into overall (dust plus gas) relative abundances,
[N/Fe]_corr. The ratios [N/alpha] have been mostly determined by using
sulphur as a tracer of alpha elements that is unaffected by dust. The
[N/Fe] and [N/alpha] ratios show high dispersions, of 1 order of
magnitude or more, which have no equivalent in other element-to-element
ratios in DLAs. The lowest values of the [N/Fe]_corr and [N/alpha]
ratios are at variance with the values measured in Galactic halo stars
of similar metallicity, suggesting that part of the DLA galaxies do not
follow the chemical evolution of the Milky Way. The DLA nitrogen
abundances and their dispersion show some similarities with those
observed in dwarf galaxies. Comparison with chemical evolution models
shows that the lowest [N/Fe]_corr and [N/alpha] DLA values are close to
what would be expected for a pure secondary origin of nitrogen, whereas
higher values are mostly consistent with a primary component. The
behavior of nitrogen abundance ratios can be ascribed, in general, to
the delayed release of nitrogen in the course of evolution. However it
is difficult to conciliate this interpretation with the lowest [N/alpha]
values measured, since an expected enhancement of alpha elements with
respect to the iron-peak elements is not observed simultaneously in
these DLA galaxies. In two cases, relatively high [N/alpha] values are
observed that require also a more complex chemical evolution to be
explained.