* Astronomy

Title: The chemical evolution of IC10
Authors: Jun Yin, Laura Magrini, Francesca Matteucci, Gustavo A. Lanfranchi, Denise R. Gonçalves, Roberto D. D. Costa
(Version v2)

Dwarf irregular galaxies are relatively simple unevolved objects where it is easy to test models of galactic chemical evolution. We attempt to determine the star formation and gas accretion history of IC10, a local dwarf irregular for which abundance, gas, and mass determinations are available. We apply detailed chemical evolution models to predict the evolution of several chemical elements (He, O, N, S) and compared our predictions with the observational data. We consider additional constraints such as the present-time gas fraction, the star formation rate (SFR), and the total estimated mass of IC10. We assume a dark matter halo for this galaxy and study the development of a galactic wind. We consider different star formation regimes: bursting and continuous. We explore different wind situations: i) normal wind, where all the gas is lost at the same rate and ii) metal-enhanced wind, where metals produced by supernovae are preferentially lost. We study a case without wind. We vary the star formation efficiency (SFE), the wind efficiency, and the time scale of the gas infall, which are the most important parameters in our models. We find that only models with metal-enhanced galactic winds can reproduce the properties of IC10. The star formation must have proceeded in bursts rather than continuously and the bursts must have been less numerous than ~10 over the whole galactic lifetime. Finally, IC10 must have formed by a slow process of gas accretion with a timescale of the order of 8 Gyr.

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Title: IC10: the history of the nearest starburst galaxy through its Planetary Nebula and HII region populations
Authors: Laura Magrini (INAF, Osservatorio Astrofisico di Arcetri, Italy), Denise R. Goncalves (UFRJ - Observatorio do Valongo, Brazil)

We report the results of spectroscopic observations, obtained with the Gemini North Multi-Object Spectrograph, of 9 planetary nebulae (PNe) and 15 H ii regions located in the 5.5' x 5.5' inner region of the nearby starburst galaxy IC10. Twelve new candidate PNe have been discovered during our pre-imaging phase. Nine of them have been spectroscopically confirmed. The direct availability of the electron temperature diagnostics in several nebulae allowed an accurate determination of the metallicity map of IC10 at two epochs: the present-time from H ii regions and the old/intermediate-age from PNe. We found a non-homogeneous distribution of metals at both epochs, but similar average abundances were found for the two populations. The derived age-metallicity relation shows a little global enrichment interpreted as the loss of metals by SN winds and to differential gas outflows. Finally, we analysed the production of oxygen --through the third dredge-up-- in the chemical abundance patterns of the PN populations belonging to several dwarf irregular galaxies. We found that the third dredge-up of oxygen is a metallicity dependent phenomenon occurring mainly for 12+ log (O/H) =< 7.7 and substantially absent in IC10 PNe.

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Most Distant Symbiotic Star Pair Discovered
An international team led by Brazilian astronomer Denise Gonçalves used the Gemini Multi-Object Spectrograph (GMOS) on Gemini North to discover the most distant known symbiotic star. The star is part of a dwarf starburst galaxy in the Local Group called IC10 and is located about 750 kiloparsecs (about 2.5 million light-years) away.
A symbiotic star is a variable binary star in which one star has expanded its outer envelope, in the late stages of its evolution, and is shedding mass quickly on another hot star (often a white dwarf). Some time in the future, the pair will end catastrophically with the white dwarf detonating as a Type Ia supernova as more material is dumped on it by the red giant.
Symbiotic stars are critical in understanding Type Ia supernovae and the evolution of binary star systems. However, relatively few systems of this sort are known so finding them outside of our galaxy is an important step in developing a cohesive theory of how symbiotic stars interact over their lifetimes in different environments.
This particular star pair (IC10 StSy-1) shines at apparent magnitude V=24.62±0.02 and the cooler component matches that of M8III giants in our solar neighbourhood. Its observed emission lines belong to the Balmer series, [SII], [NII] and [OIII] which suggests a low electronic density, negligible optical depth effects and a temperature (Teff) for the ionising source of between 35,000 and 90,000 K. The spectrum of the new symbiotic star in the pair is an almost perfect copy of the well-known nearby symbiotic star Hen 2-147 and is also similar to the famous naked-eye star Mira in the constellation Cetus.

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