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An inhomogeneous model for the Galactic halo: a possible explanation for the spread observed in s- and r-process elements

Aims. We propose an explanation for the considerable scatter of the abundances of neutron capture elements observed in low-metallicity stars in the solar vicinity, compared to the small star-to-star scatter observed for the α-elements. Methods. We have developed a stochastic chemical evolution model...

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Published in:	Astronomy and astrophysics (Berlin) 2008-04, Vol.481 (3), p.691-699
Main Author:	Cescutti, G.
Format:	Article
Language:	English
Subjects:	abundances Astronomy Earth, ocean, space Exact sciences and technology Galaxy: evolution Galaxy: halo nuclear reactions nucleosynthesis stars: abundances
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container_title	Astronomy and astrophysics (Berlin)
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creator	Cescutti, G.
description	Aims. We propose an explanation for the considerable scatter of the abundances of neutron capture elements observed in low-metallicity stars in the solar vicinity, compared to the small star-to-star scatter observed for the α-elements. Methods. We have developed a stochastic chemical evolution model in which the main assumption is a random formation of new stars subject to the condition that the cumulative mass distribution follows a given initial mass function. Results. With our model, we are able to reproduce the different spreads of neutron capture elements and α-elements in low-metallicity stars. Conclusions. The reason for different observed spreads in neutron capture elements and α-elements resides in the random birth of stars, coupled with different stellar mass ranges, from which α-elements and neutron capture elements originate. In particular, the site of production of α-elements is the whole range of massive stars, from 10 to 80 $M_{\odot}$ whereas the mass range of production for neutron capture elements lies between 12 and 30 $M_{\odot}$.
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We propose an explanation for the considerable scatter of the abundances of neutron capture elements observed in low-metallicity stars in the solar vicinity, compared to the small star-to-star scatter observed for the α-elements. Methods. We have developed a stochastic chemical evolution model in which the main assumption is a random formation of new stars subject to the condition that the cumulative mass distribution follows a given initial mass function. Results. With our model, we are able to reproduce the different spreads of neutron capture elements and α-elements in low-metallicity stars. Conclusions. The reason for different observed spreads in neutron capture elements and α-elements resides in the random birth of stars, coupled with different stellar mass ranges, from which α-elements and neutron capture elements originate. 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We propose an explanation for the considerable scatter of the abundances of neutron capture elements observed in low-metallicity stars in the solar vicinity, compared to the small star-to-star scatter observed for the α-elements. Methods. We have developed a stochastic chemical evolution model in which the main assumption is a random formation of new stars subject to the condition that the cumulative mass distribution follows a given initial mass function. Results. With our model, we are able to reproduce the different spreads of neutron capture elements and α-elements in low-metallicity stars. Conclusions. The reason for different observed spreads in neutron capture elements and α-elements resides in the random birth of stars, coupled with different stellar mass ranges, from which α-elements and neutron capture elements originate. 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source	EZB Electronic Journals Library
subjects	abundances Astronomy Earth, ocean, space Exact sciences and technology Galaxy: evolution Galaxy: halo nuclear reactions nucleosynthesis stars: abundances
title	An inhomogeneous model for the Galactic halo: a possible explanation for the spread observed in s- and r-process elements
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