%0 Generic %1 penaguerrero2017carbon %A Peña-Guerrero, Maria A. %A Leitherer, Claus %A de Mink, Selma %A Wofford, Aida %A Kewley, Lisa %D 2017 %K abundance carbon production %T Carbon Abundances in Starburst Galaxies of the Local Universe %U http://arxiv.org/abs/1709.07587 %X The cosmological origin of carbon, the fourth most abundant element in the Universe, is not well known and matter of heavy debate. We investigate the behavior of C/O to O/H in order to constrain the production mechanism of carbon. We measured emission-line intensities in a spectral range from 1600 to 10000 \AA\ on Space Telescope Imaging Spectrograph (STIS) long-slit spectra of 18 starburst galaxies in the local Universe. We determined chemical abundances through traditional nebular analysis and we used a Markov Chain Monte Carlo (MCMC) method to determine where our carbon and oxygen abundances lie in the parameter space. We conclude that our C and O abundance measurements are sensible. We analyzed the behavior of our sample in the C/O vs. O/H diagram with respect to other objects such as DLAs, neutral ISM measurements, and disk and halo stars, finding that each type of object seems to be located in a specific region of the diagram. Our sample shows a steeper C/O vs. O/H slope with respect to other samples, suggesting that massive stars contribute more to the production of C than N at higher metallicities, only for objects where massive stars are numerous; otherwise intermediate-mass stars dominate the C and N production.

@misc{penaguerrero2017carbon, abstract = {The cosmological origin of carbon, the fourth most abundant element in the Universe, is not well known and matter of heavy debate. We investigate the behavior of C/O to O/H in order to constrain the production mechanism of carbon. We measured emission-line intensities in a spectral range from 1600 to 10000 \AA\ on Space Telescope Imaging Spectrograph (STIS) long-slit spectra of 18 starburst galaxies in the local Universe. We determined chemical abundances through traditional nebular analysis and we used a Markov Chain Monte Carlo (MCMC) method to determine where our carbon and oxygen abundances lie in the parameter space. We conclude that our C and O abundance measurements are sensible. We analyzed the behavior of our sample in the [C/O] vs. [O/H] diagram with respect to other objects such as DLAs, neutral ISM measurements, and disk and halo stars, finding that each type of object seems to be located in a specific region of the diagram. Our sample shows a steeper C/O vs. O/H slope with respect to other samples, suggesting that massive stars contribute more to the production of C than N at higher metallicities, only for objects where massive stars are numerous; otherwise intermediate-mass stars dominate the C and N production.}, added-at = {2017-09-25T10:27:37.000+0200}, author = {Peña-Guerrero, Maria A. and Leitherer, Claus and de Mink, Selma and Wofford, Aida and Kewley, Lisa}, biburl = {https://www.bibsonomy.org/bibtex/2e99fa17889059656ec92f3948b0a1106/miki}, description = {[1709.07587] Carbon Abundances in Starburst Galaxies of the Local Universe}, interhash = {ad81a3407bf5a4c8a098516306b9c826}, intrahash = {e99fa17889059656ec92f3948b0a1106}, keywords = {abundance carbon production}, note = {cite arxiv:1709.07587Comment: Accepted for publication in ApJ}, timestamp = {2017-09-25T10:27:37.000+0200}, title = {Carbon Abundances in Starburst Galaxies of the Local Universe}, url = {http://arxiv.org/abs/1709.07587}, year = 2017 }