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Main Authors: Picco, Annachiara, Marchant, Pablo, Pauli, Daniel, Sana, Hugues
Format: Preprint
Published: 2026
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Online Access:https://arxiv.org/abs/2605.22911
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author Picco, Annachiara
Marchant, Pablo
Pauli, Daniel
Sana, Hugues
author_facet Picco, Annachiara
Marchant, Pablo
Pauli, Daniel
Sana, Hugues
contents Stripped stars are a common product of binary stellar systems and span a wide mass range from Wolf-Rayet stars to hot subdwarfs and helium white dwarfs. The recent discovery of intermediate-mass stripped stars, with masses between those of WRs and subdwarfs, provides a continuous evolutionary sequence and valuable test beds for binary interaction models. Population synthesis studies explain the formation of stripped products through stable mass transfer or common envelope evolution. Recently, however, a merger scenario (or, "failed common envelope") between a stripped star and a post-main sequence companion was suggested to explain the formation of the magnetic intermediate-mass stripped star HD 45166. In this Letter, we investigate this channel using detailed interacting binary simulations at Galactic metallicity and model their stripped merger products. We find that these merger products can contribute to the population of stripped stars across the Hertzsprung-Russell diagram and produce a blue-straggler effect, with merger masses spanning from 6 to 14 solar masses. These objects would be consistent with long-lived core He-burning stars retaining thin hydrogen envelopes after a partial CE ejection, and they would appear as single or members of wide binaries that were originally hierarchical triples.
format Preprint
id arxiv_https___arxiv_org_abs_2605_22911
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Mergers via failed common envelope as a route towards intermediate-mass stripped stars
Picco, Annachiara
Marchant, Pablo
Pauli, Daniel
Sana, Hugues
Solar and Stellar Astrophysics
Stripped stars are a common product of binary stellar systems and span a wide mass range from Wolf-Rayet stars to hot subdwarfs and helium white dwarfs. The recent discovery of intermediate-mass stripped stars, with masses between those of WRs and subdwarfs, provides a continuous evolutionary sequence and valuable test beds for binary interaction models. Population synthesis studies explain the formation of stripped products through stable mass transfer or common envelope evolution. Recently, however, a merger scenario (or, "failed common envelope") between a stripped star and a post-main sequence companion was suggested to explain the formation of the magnetic intermediate-mass stripped star HD 45166. In this Letter, we investigate this channel using detailed interacting binary simulations at Galactic metallicity and model their stripped merger products. We find that these merger products can contribute to the population of stripped stars across the Hertzsprung-Russell diagram and produce a blue-straggler effect, with merger masses spanning from 6 to 14 solar masses. These objects would be consistent with long-lived core He-burning stars retaining thin hydrogen envelopes after a partial CE ejection, and they would appear as single or members of wide binaries that were originally hierarchical triples.
title Mergers via failed common envelope as a route towards intermediate-mass stripped stars
topic Solar and Stellar Astrophysics
url https://arxiv.org/abs/2605.22911