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A Spectacular Mass-Loss Event of the Central Star of Longmore 4

Published online by Cambridge University Press:  07 August 2017

K. Werner
Affiliation:
Institut für Theoretische Physik und Sternwarte, Kiel, FRG
W.-R. Hamann
Affiliation:
Institut für Theoretische Physik und Sternwarte, Kiel, FRG
U. Heber
Affiliation:
Institut für Theoretische Physik und Sternwarte, Kiel, FRG
R. Napiwotzki
Affiliation:
Institut für Theoretische Physik und Sternwarte, Kiel, FRG
T. Rauch
Affiliation:
Institut für Theoretische Physik und Sternwarte, Kiel, FRG
U. Wessolowski
Affiliation:
Institut für Theoretische Physik und Sternwarte, Kiel, FRG

Extract

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The nucleus of the PN Lo4 is very hot and H-deficient and may be classified as a PG 1159 star (Werner 1992). Besides K 1–16, it is the second known pulsating central star. New spectra were taken between May 1991 and Febr. 1992. Within 18 days we witnessed a rapid decline of an emission line phase, which has begun less than 7 months ago. During this time Lo4 has changed its spectral type from PG 1159 to early WC (WC2 or WC3) and back to PG 1159. This phenomenon has never been observed before in hot post-AGB stars. The event is interpreted as an intrinsic phenomenon. Because of the short time scales, the variations are probably confined to the outermost stellar layers. It is known that the pulsation driving zones are close to the stellar surface and we speculate about a causal relation between enhanced mass-loss and possible variations in the pulsation behaviour. Spectral analysis was performed using NLTE model codes for spherically expanding atmospheres (Hamann et al. 1991) to analyze the WC-type spectrum and for plane-parallel static atmospheres (Werner 1992) to analyze the PG 1159 type spectrum. We find T eff=120kK and log g=5.5 during the PG 1159 phase. For the WC phase we obtain the same T eff and the mass-loss rate log (·/(M/yr))=−7.3. The element abundances are typical for PG 1159 stars (He:C:O=46:43:ll, by mass) and v=:4000 km/s. More details can be found in Werner et al. (1992).

Type
V. Planetary Nebulae Connection: Evolution to White Dwarfs
Copyright
Copyright © Kluwer 1993