Siek Hyung scite author profile

We have performed a comprehensive chemical abundance analysis of the extremely metal-poor ([Ar/H]<-2) halo planetary nebula (PN) BoBn 1 based on IUE archive data, Subaru/HDS spectra, VLT/UVES archive data, and Spitzer/IRS spectra. We have detected over 600 lines in total and calculated ionic and elemental abundances of 13 elements using detected optical recombination lines (ORLs) and collisionally excited lines (CELs). The estimations of C, N, O, and Ne abundances from the ORLs and Kr, Xe, and Ba from the CELs are done the first for this nebula, empirically and theoretically. The C, N, O, and Ne abundances from ORLs are systematically larger than those from CELs. The abundance discrepancies apart from O could be explained by a temperature fluctuation model, and that of O might be by a hydrogen deficient cold component model. We have detected 5 fluorine and several slow neutron capture elements (the s-process). The amounts of [F/H], [Kr/H], and [Xe/H] suggest that BoBn 1 is the most F-rich among F detected PNe and is a heavy s-process element rich PN. We have confirmed dust in the nebula that is composed of amorphous carbon and PAHs with a total mass of 5.8×10 −6 M ⊙ . The photo-ionization models built with non-LTE theoretical stellar atmospheres indicate that the progenitor was a 1-1.5 M ⊙ star that would evolve into a white dwarf with an ∼0.62 M ⊙ core mass and ∼0.09 M ⊙ ionized nebula. We have measured a heliocentric radial velocity of +191.6 ±1.3 km s −1 and expansion velocity 2V exp of 40.5 ± 3.3 km s −1 from an average over 300 lines. The derived elemental abundances have been reviewed from the standpoint of theoretical nucleosynthesis models. It is likely that the elemental abundances except N could be explained either by a 1.5 M ⊙ single star model or by a binary model composed of 0.75 M ⊙ + 1.5 M ⊙ stars. Careful examination implies that BoBn 1 has evolved from a 0.75 M ⊙ + 1.5 M ⊙ binary and experienced coalescence during the evolution to become a visible PN, similar to the other extremely metal-poor halo PN, K 648 in M 15.

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The spectrum of the variable planetary nebula IC 4997

Hyung¹,

Aller²,

Feibelman³

1994

ApJS

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Density contrast shell models for the planetary nebula IC 2165

Hyung¹

1994

ApJS

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The spectrum of the planetary nebula IC 418

Hyung

Aller

Feibelman

1994

PASP

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A detailed high-spectral-resolution study of the spectrum of IC 418 is made for the region 3650 to 10050 Â, using the Hamilton echelle spectrograph of Lick Observatory, and of the UV spectral region with archival International Ultraviolet Explorer (IUE) data. From high-resolution images in both the near-and mid-infrared, Hora et al. (1993) showed that IC 418 probably has a compact shell interior to the detached, well-known, main shell emission. If one assumes a black body or Hubeny (or standard LTE) model atmosphere energy distribution, it does not appear possible to construct a fully satisfactory nebula model that will simultaneously represent the Hß flux, the [O m]5007/H/3 ratio, and the scale of this planetary nebula (PN). Fortunately, IUE and IR data supply information on ions in addition to those optically observed so that the chemical composition can be reasonably well established by summing over concentrations of observed ions. In spite of the fact that IC 418 is carbon rich in sense of having a C/O ratio exceeding the solar value, it is a "metal-poor" object. Possibly it resembles IC 4997 but in a more advanced evolutionary phase. The central star is variable and has a strong wind.

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The optical spectrum of the young planetary nebula Hubble 12

Hyung

Aller

1996

Monthly Notices of the Royal Astronomical Society

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Siek Hyung

THE ORIGIN AND EVOLUTION OF THE HALO PN BoBn 1: FROM A VIEWPOINT OF CHEMICAL ABUNDANCES BASED ON MULTIWAVELENGTH SPECTRA

The spectrum of the variable planetary nebula IC 4997

Density contrast shell models for the planetary nebula IC 2165

The spectrum of the planetary nebula IC 418

The optical spectrum of the young planetary nebula Hubble 12

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