Bibcode
Magrini, L.; Leisy, P.; Corradi, R. L. M.; Perinotto, M.; Mampaso, A.; Vílchez, J. M.
Bibliographical reference
Astronomy and Astrophysics, Volume 443, Issue 1, November III 2005, pp.115-132
Advertised on:
11
2005
Journal
Citations
52
Refereed citations
41
Description
Spectroscopic observations obtained with the VLT of one planetary nebula
(PN) in Sextans A and of five PNe in Sextans A and of several H ii
regions in these two dwarf irregular galaxies are presented. The
extended spectral coverage, from 320.0 to 1000.0 nm, and the large
telescope aperture allowed us to detect a number of emission lines,
covering more than one ionization stage for several elements (He, O, S,
Ar). The electron temperature diagnostic O iii line at 436.3 nm was
measured in all six PNe and in several H ii regions allowing for an
accurate determination of the ionic and total chemical abundances by
means of the Ionization Correction Factors method. For the time being,
these PNe are the farthest ones where such a direct measurement of the
electron temperature is obtained. In addition, all PNe and H ii regions
were also modelled using the photoionization code CLOUDY (Ferland et al.
1998, PASP, 110, 761). The physico-chemical properties of PNe and H ii
regions are presented and discussed. A small dispersion in the oxygen
abundance of H ii regions was found in both galaxies: 12 + log
(O/H)=7.6± 0.2 in Sextans A, and 7.8± 0.2 in Sextans B.
For the five PNe of Sextans B, we find that 12 + log (O/H)=8.0±
0.3, with a mean abundance consistent with that of H ii regions. The
only PN known in Sextans A appears to have been produced by a quite
massive progenitor, and has a significant nitrogen overabundance. In
addition, its oxygen abundance is 0.4 dex larger than the mean abundance
of H ii regions, possibly indicating an efficient third dredge-up for
massive, low-metallicity PN progenitors. The metal enrichment of both
galaxies is analyzed using these new data.