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Evidence for Explosive Nucleosynthesis in the Helium Shell of Massive Stars from Cosmochemical Samples Bradley S. Meyer Clemson University.

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Presentation on theme: "Evidence for Explosive Nucleosynthesis in the Helium Shell of Massive Stars from Cosmochemical Samples Bradley S. Meyer Clemson University."— Presentation transcript:

1 Evidence for Explosive Nucleosynthesis in the Helium Shell of Massive Stars from Cosmochemical Samples Bradley S. Meyer Clemson University

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3 “Rocks” shed light on fundamental (astro)physics issues: Heavy element nucleosynthesis Mixing of ejecta in supernova debris Cycling of dust in the interstellar medium Circumstances of the Sun’s birth Formation of the planets Important nuclear reactions to measure

4 February 8, 1969

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7 Pellin et al. 1999

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11 Center: M r = 0 Outer boundary of star: M r = M M r : Lagrangian Mass Coordinate

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13 22 Ne(alpha,n) 25 Mg

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20 Steady-state solar system abundances Meteorites have the right amount of 53 Mn and 182 Hf Meteorites have too much 26 Al, 41 Ca, and 60 Fe Meteorites have too little 107 Pd and 129 I

21 Multiple components required for the r-process? Evidence: –Extinct 129 I/ 182 Hf discrepancy in the early solar system. –Variability of A < 130 abundances in metal- poor stars Possibilities: –Multiple r-process components (read “sites”). –Other sources of these “r-process isotopes”

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24 Injection picture

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27 Injection of Radioactivities from a Supernova With appropriate mass cut can explain early solar system abundance of 26 Al, 60 Fe, 107 Pd, 129 I, and 182 Hf Steady-state Galactic nucleosynthesis accounts for 53 Mn, 146 Sm, and the actinides This scenario decouples extinct 129 I and 182 Hf from the r-process; therefore, it does not demand multiple r-process components.

28 Important nuclear reactions Neutron-producing reactions like 22 Ne(alpha,n) 25 Mg at temperatures T 9 =0.5- 1.5 Neutron-capture reactions on nuclear several mass units neutron rich of stability

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30 Take home message Fascinating cosmochemical and astronomical data on r- process isotopes and elements are not easily explained by the “standard” r-process. Rather than indicating multiple r-process components, however, this may be indicating (minor) non r-process contributions to the production of these species from He shell nucleosynthesis Helium-shell nucleosynthesis products in cosmochemical samples thus have implications for the astronomy of supernova, the circumstances of the Sun’s birth, and identification of important nuclear reaction cross sections to measure.

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