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HK: Fachverband Physik der Hadronen und Kerne

HK 62: Nuclear Astrophysics 5

HK 62.5: Vortrag

Donnerstag, 26. März 2015, 18:15–18:30, P/H1

Role of nuclear reactions on stellar evolution of intermediate-mass stars — •Heiko Möller1, Samuel Jones2, Tobias Fischer3, Raphael Hirschi4, Ken’ichi Nomoto5, and Gabriel Martínez-Pinedo11TU Darmstadt — 2University of Victoria — 3Uniwersytet Wrocławski — 4Keele University — 5Kavli IPMU

The evolution of intermediate-mass stars (8 - 12 solar masses) represents one of the most challenging subjects in nuclear astrophysics. Their final fate is highly uncertain and strongly model dependent. They can become white dwarfs, they can undergo electron-capture or core-collapse supernovae or they might even proceed towards explosive oxygen-burning and a subsequent thermonuclear explosion. We believe that an accurate description of nuclear reactions is crucial for the determination of the pre-supernova structure of these stars and show that weak rates involving sd-shell nuclei are of particular importance. We argue that due to the possible development of an oxygen-deflagration, a hydrodynamic description has to be used. We implement a nuclear reaction network with ∼200 nuclear species into our implicit hydrodynamic code AGILE. The reaction network considers all relevant nuclear electron captures and beta-decays. For selected relevant nuclear species, we include a set of updated reaction rates based on shell-model calculations, for which we discuss the role for the evolution of the stellar core, at the example of selected stellar models. We find that the final fate of these intermediate-mass stars depends sensitively on the density threshold for weak processes that deleptonize the stellar core.

This work is supported by the DFG through contract SFB 634.

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DPG-Physik > DPG-Verhandlungen > 2015 > Heidelberg