Extended dust shell of the carbon star U Hydrae observed with AKARI

H. Izumiura, T. Ueta, I. Yamamura, N. Matsunaga, Y. Ita, M. Matsuura, Y. Nakada, H. Fukushi, H. Mito, T. Tanabé, O. Hashimoto

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13 Citations (Scopus)

Abstract

Context: Low- to intermediate-mass stars lose a significant fraction of their mass while they are on the asymptotic giant branch (AGB). This mass loss is considered to determine the final stages of their evolution. The material ejected from the stellar photosphere forms a circumstellar envelope in its surroundings. Layers of circumstellar envelope constitute the footprint of mass-loss history. Aims. Our aim is to probe the mass-loss history in the carbon star U Hya in the last ∼104 years by investigating the distribution of dust in the circumstellar envelope with high spatial resolution. Methods. We observed U Hya in the far-infrared (FIR) at 65, 90, 140, and 160 μm simultaneously, using the slow scan observing mode of the far-infrared surveyor (FIS) aboard the infrared astronomical satellite AKARI. It produced a map of ∼10′ × 40′ in size in each band. Results. The FIS maps reveal remarkably circular, ring-like emission structure almost centered on the star, showing the presence of a detached, spherical dust shell. A hollow dust shell model gives the inner radius Rin of 101-107″[(2.5-2. 6) × 1017 cm], thickness that covers a half of the total dust mass ΔRhm of 16-23″[(3.8-5.6) × 1016 cm], which gives ΔRhm/Rin ∼ 0.2, and the power-law index of the dust opacity distribution of 1.10-1.15. The dust mass in the shell is well-constrained to be (0.9-1.4) × 10-4100/25)-1 M, where κ100 is the dust absorptivity at 100 μm in units of cm 2 g-1. The dust mass-loss rate at Rin is found to be (1.8-9.6) × 10-8100/25) -1(ve/15) M yr-1, which shows that the total mass-loss rate in the shell is at least an order of magnitude higher than the current rate, where ve is the outflow velocity at Rin in units of km s-1. An extension of FIR emission along PA ∼ -70° is found out to ∼5′ from the star, which is probably a ram-stripping wake by the ISM wind. We also find excess FIR emission that might indicate the earliest departure from spherical symmetry in the AGB mass loss inside the shell. Conclusions. The dust shell of U Hya is a hollow sphere and has an effective width that is narrower than the spatial resolution of the FIS. It could be formed as either a direct consequence of a thermal pulse, a result of two-wind interaction induced by a thermal pulse, a termination shock, or any combination of these processes.

Original languageEnglish
Article numberA29
JournalAstronomy and Astrophysics
Volume528
DOIs
Publication statusPublished - 2011

Keywords

  • circumstellar matter
  • stars: AGB and post-AGB
  • stars: carbon
  • stars: evolution
  • stars: individual: U Hya
  • stars: mass-loss

ASJC Scopus subject areas

  • Astronomy and Astrophysics
  • Space and Planetary Science

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