Aims. We explore different evolutionary scenarios to explain the helium, deficiency observed, in H1504+65, the most massive known PG1159 star. Methods. We concentrate mainly on the possibility that this star could be the result of mass loss shortly after its born-again and during its subsequent evolution through the [WCL] stage. This possibility is consistent with observational evidence of extensive mass-loss events in Sakurai's object and is in line with the finding that these mass losses give rise to PG1159 models with thin heliumrich envelopes and high rates of period change, as demanded by the pulsating star PG1159-035. We compute the post-born-again evolution of massive sequences by taking into account different mass-loss rate historie...
We examine a recently-proposed evolutionary scenario that could explain the existence of the low-mas...
Context. About a quarter of all post-asymptotic giant branch (AGB) stars are hydrogen-defi...
We study the formation and evolution of DA white dwarfs, the progenitors of which have experienced a...
Aims. We explore different evolutionary scenarios to explain the helium, deficiency observed, in H15...
Using the most recent results about white dwarfs (WDs) in ten open clusters, we revisit semiempirica...
Aims. We explore different evolutionary scenarios to explain the helium deficiency observed in H150...
We explore the formation and evolution of hydrogen-deficient post-AGB white dwarfs. To this end, we ...
We present evidence that PG 1159 stars could harbor He-rich envelopes substantially thinner than tho...
International audienceWhite dwarfs represent the endpoint of stellar evolution for stars with initia...
Aims. The present paper focuses on the evolution of hydrogen-deficient white dwarfs with the aim of ...
Aims. We present full evolutionary calculations appropriate to post-AGB PG 1159 stars for a wide ran...
We present full evolutionary calculations appropriate for the study of hot hydrogen-deficient DO whi...
Aims, We examine a recently-proposed evolutionary scenario that could explain the existence of the l...
We study the formation and evolution of DA white dwarfs, the progenitors of which have experienced a...
The present work is designed to explore the evolution of helium-core white dwarf (He WD) stars for t...
We examine a recently-proposed evolutionary scenario that could explain the existence of the low-mas...
Context. About a quarter of all post-asymptotic giant branch (AGB) stars are hydrogen-defi...
We study the formation and evolution of DA white dwarfs, the progenitors of which have experienced a...
Aims. We explore different evolutionary scenarios to explain the helium, deficiency observed, in H15...
Using the most recent results about white dwarfs (WDs) in ten open clusters, we revisit semiempirica...
Aims. We explore different evolutionary scenarios to explain the helium deficiency observed in H150...
We explore the formation and evolution of hydrogen-deficient post-AGB white dwarfs. To this end, we ...
We present evidence that PG 1159 stars could harbor He-rich envelopes substantially thinner than tho...
International audienceWhite dwarfs represent the endpoint of stellar evolution for stars with initia...
Aims. The present paper focuses on the evolution of hydrogen-deficient white dwarfs with the aim of ...
Aims. We present full evolutionary calculations appropriate to post-AGB PG 1159 stars for a wide ran...
We present full evolutionary calculations appropriate for the study of hot hydrogen-deficient DO whi...
Aims, We examine a recently-proposed evolutionary scenario that could explain the existence of the l...
We study the formation and evolution of DA white dwarfs, the progenitors of which have experienced a...
The present work is designed to explore the evolution of helium-core white dwarf (He WD) stars for t...
We examine a recently-proposed evolutionary scenario that could explain the existence of the low-mas...
Context. About a quarter of all post-asymptotic giant branch (AGB) stars are hydrogen-defi...
We study the formation and evolution of DA white dwarfs, the progenitors of which have experienced a...
Add to ORKG