Reaction rate uncertainties and the production of [superscript 19]F in asymptotic giant branch stars

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dc.creator Lugaro, Maria
dc.creator Ugalde, Claudio
dc.creator Karakas, A. I.
dc.creator Gorres, Joachim
dc.creator Wiescher, Michael
dc.creator Lattanzio, John C.
dc.creator Cannon, Robert C.
dc.date.accessioned 2015-11-04T16:52:50Z
dc.date.available 2015-11-04T16:52:50Z
dc.date.issued 2004-11-10
dc.identifier.issn 0004-637X
dc.identifier.uri http://library2.smu.ca/xmlui/handle/01/26434
dc.description Publisher's version/PDF en_CA
dc.description.abstract We present nucleosynthesis calculations and the resulting [superscript 19]F stellar yields for a large set of models with different masses and metallicity. During the asymptotic giant branch (AGB) phase, [superscript 19]F is produced as a consequence of nucleosynthesis occurring during the convective thermal pulses and also during the interpulse periods if protons from the envelope are partially mixed in the top layers of the He intershell (partial mixing zone). We find that the production of fluorine depends on the temperature of the convective pulses, the amount of primary [superscript 12]C mixed into the envelope by third dredge-up, and the extent of the partial mixing zone. Then we perform a detailed analysis of the reaction rates involved in the production of [superscript 19]F and the effects of their uncertainties.We find that the major uncertainties are associated with the [superscript 14]C([alpha, gamma])[superscript 18]O and [superscript 19]F([alpha], p)[superscript 22]Ne reaction rates. For these two reactions we present new estimates of the rates and their uncertainties. In both cases the revised rates are lower than previous estimates. The effect of the inclusion of the partial mixing zone on the production of fluorine strongly depends on the very uncertain [superscript 14]C([alpha, gamma])[superscript 18]O reaction rate. The importance of the partial mixing zone is reduced when using our estimate for this rate. Overall, rate uncertainties result in uncertainties in the fluorine production of about 50% in stellar models with mass [similar or equal to]3 M[subscript circled dot] and of about a factor of 7 in stellar models of mass [similar or equal to]5 M[subscript circled dot]. This larger effect at high masses is due to the high uncertainties of the [superscript 19]F([alpha], p)[superscript 22]Ne reaction rate. Taking into account both the uncertainties related to the partial mixing zone and those related to nuclear reactions, the highest values of [superscript 19]F enhancements observed in AGB stars are not matched by the models. This is a problem that will have to be revised by providing a better understanding of the formation and nucleosynthesis in the partial mixing zone, as well as in relation to reducing the uncertainties of the [superscript 14]C([alpha, gamma])[superscript 18]O reaction rate. At the same time, the possible effect of cool bottom processing at the base of the convective envelope should be included in the computation of AGB nucleosynthesis. This process could, in principle, help to match the highest [superscript 19]F abundances observed by decreasing the C/O ratio at the surface of the star, while leaving the [superscript 19]F abundance unchanged. en_CA
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dc.language.iso en en_CA
dc.publisher American Astronomical Society en_CA
dc.publisher IOP Publishing
dc.relation.uri http://dx.doi.org/10.1086/424559
dc.rights Article is made available in accordance with the publisher’s policy and is subject to copyright law. Please refer to the publisher’s site. Any re-use of this article is to be in accordance with the publisher’s copyright policy. This posting is in no way granting any permission for re-use to the reader/user.
dc.subject.lcsh Asymptotic giant branch stars
dc.subject.lcsh Nuclear reactions
dc.subject.lcsh Nucleosynthesis
dc.title Reaction rate uncertainties and the production of [superscript 19]F in asymptotic giant branch stars en_CA
dc.type Text en_CA
dcterms.bibliographicCitation Astrophysical Journal 615, 934-946. (2004) en_CA
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Article is made available in accordance with the publisher’s policy and is subject to copyright law. Please refer to the publisher’s site. Any re-use of this article is to be in accordance with the publisher’s copyright policy. This posting is in no way granting any permission for re-use to the reader/user.
 
Published Version: http://dx.doi.org/10.1086/424559
 
 

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