L. Carigi, M. Peimbert, A. Peimbert
Published 2019-06-18Version 1
We present two chemical evolution models of our galaxy, both models are built to fit the O/H ratios derived from H II regions, using two different methods. One model is based on abundances obtained from the [O III] 4363/5007 temperatures (direct method, DM) and the other on abundances obtained from the recombination line ratios of [O II/H I] (temperature independent method, TIM). The differences between the O/H values obtained from these two methods are about 0.25 dex. We find that the model based on the TIM values produces an excellent fit to the observational stellar constraints (B-stars, Cepheids, and the Sun), while the model based on the DM fails to reproduce each of them. Moreover, the TIM model can explain the flattening of the O/H gradient observed in the inner disk due to the assumption of an inside-out star formation quenching, in the 3 - 6 kpc galactocentric range, starting ~ 9 Gyr ago.
Comments: 6 pages, 2 figures. Contributed talk given in the II workshop on Chemical Abundances in Gaseous Nebulae, held between 11-14 March 2019 in Sao Jose dos Campos, Sao Paulo, Brazil
CGCG007-025 chemical composition]{The resolved chemical composition of the starburst dwarf galaxy CGCG007-025: Direct method versus photoionization model fitting
An Initial Mass Function for Individual Stars in Galactic Disks: I. Constraining the Shape of the IMF
The Galactic habitable zone around M and FGK stars with chemical evolution models with dust
![QR code for arXiv:1906.07804 [astro-ph.GA]](http://oss.arxitics.com/images/favicon.svg)