http://arxiv.org/abs/1601.06896
Ancient, dim metal-poor stars may have formed in the ashes of the first supernovae. If their chemical abundances can be reconciled with the nucleosynthetic yields of specific Pop III explosions, they could reveal the properties of primordial stars. But simulations of such explosions must be multidimensional because dynamical instabilities can dredge material up from deep in the ejecta that would be predicted to fall back onto the compact remnant and be lost in one-dimensional models. We have performed two-dimensional numerical simulations of two low-energy Pop III supernovae, a 12.4 Msun explosion and a 60 Msun explosion, and find that they have elemental yields that are a good fit to those measured in the most iron-poor star discovered to date, SMSS J031300.36-670839.3 (J031300). Fallback onto the compact remnant in these weak explosions accounts for the lack of measurable iron in J031300 and its low iron-group abundances in general. The low energies of these dim events will prevent their detection in the near infrared with the James Webb Space Telescope and future 30-meter telescopes on the ground, so the only evidence that they ever occurred will be in the fossil abundance record.
K. Chen, A. Heger, D. Whalen, et. al.
Wed, 27 Jan 16
51/57
Comments: 33 pages, 10 figures, preprint version, submitted to ApJ
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