Bipolar Supernova Explosions: Nucleosynthesis & Implication on Abundances in Extremely Metal-Poor Stars

Abstract

Hydrodynamics and explosive nucleosynthesis in bipolar supernova explosions are examined to account for some peculiar properties of hypernovae as well as peculiar abundance patterns of metal-poor stars. The explosion is supposed to be driven by bipolar jets which are powered by accretion onto a central remnant. We explore the features of the explosions with varying progenitors' masses and jet properties. The outcomes are different from conventional spherical models. (1) In the bipolar models, Fe-rich materials are ejected at high velocities along the jet axis, while O-rich materials occupy the central region whose density becomes very high as a consequence of continuous accretion from the side. This configuration can explain some peculiar features in the light curves and the nebular spectra of hypernovae. (2) Production of 56Ni tends to be smaller than in spherical thermal bomb models. To account for a large amount of 56Ni observed in hypernovae, the jets should be initiated when the compact remnant mass is still smaller than 2-3, or the jets should be very massive and slow. (3) Ejected isotopes are distributed as follows in order of decreasing velocities: 64Zn, 59Co, 56Fe, 44Ti, and 4He at the highest velocities, 55Mn, 52Cr, 32S, and 28Si at the intermediate velocities, and 24Mg, 16O at the lowest velocities. (4) The abundance ratios (Zn, Co)/Fe are enhanced while the ratios (Mn, Cr)/Fe are suppressed. This can account for the abundance pattern of extremely metal-poor stars. These agreements between the models and observations suggest that hypernovae are driven by bipolar jets and have significantly contributed to the early Galactic chemical evolution.

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