Massive runaway and walkaway stars

Renzo, M.; Zapartas, Emmanouil; Mink, S. E. de; Götberg, Y.; Justham, Stephen; Farmer, Robert; Izzard, Robert G.; Toonen, Silvia; Sana, H.

doi:10.1051/0004-6361/201833297

Cited by 201 publications

(262 citation statements)

References 196 publications

Supporting

Mentioning

246

Contrasting

Order By: Relevance

“…If the pulsar beaming fraction is ∼ 1/8 (Kolonk et al 2004) and if ∼ 1/3 of massive stars release runaway stars in core-collapse SNe (Renzo et al 2019, Zapartas et al 2017b), then, among ∼ 16 expected SNe (B16), we would expect about one detectable pulsar-runaway-pair -and we did find one case (Sect. 4).…”

Section: Introduction: 60 Fe On Earthmentioning

confidence: 54%

“…That the binary SN ejection mechanism for producing runaway stars works, can also be shown inside SN remnants: E.g., ∼ 30 kyr ago, both a pulsar and a runaway star were near the center of the SN remnant S147 (Dinçel et al 2015); the distance of SN and SNR was estimated from the spectrophotometric distance towards the runaway star HD 37424 (1.3 ± 0.1 kpc), confirmed by Gaia DR2 (1.47 ± 0.15 kpc). Most recently numerical simulations of the evolution of binary stars with one supernova progenitor were performed by Zapartas et al (2017b) and Renzo et al (2019), who could show that about one third of original binaries should produce at least one ejected runaway star.…”

Section: Introduction: 60 Fe On Earthmentioning

confidence: 99%

See 1 more Smart Citation

A nearby recent supernova that ejected the runaway star ζ Oph, the pulsar PSR B1706−16, and 60Fe found on Earth

Neuhäuser

Gießler

Hambaryan

2019

Monthly Notices of the Royal Astronomical Society

View full text Add to dashboard Cite

The detection of ∼ 1.5−3.2 Myr old 60 Fe on Earth indicates recent nearby core-collapse supernovae. For supernovae in multiple stars, the primary stars may become neutron stars, while former companions may become unbound and become runaway stars. We wrote software for tracing back the space motion of runaway and neutron stars to young associations of massive stars. We apply it here to the nearby young Scorpius-Centaurus-Lupus groups, all known runaway stars possibly coming from there, and all 400 neutron stars with known transverse velocity. We find kinematic evidence that the runaway ζ Oph and the radio pulsar PSR B1706-16 were released by a supernova in a binary 1.78 ± 0.21 Myr ago at 107 ± 4 pc distance (for pulsar radial velocity 260 ± 43 km/s); association age and flight time determine the progenitor mass (16-18 M ), which can constrain supernova nucleosynthesis yields and 60 Fe uptake on Earth. In addition, we notice that the only high-mass X-ray binary in Scorpius-Centaurus-Lupus (1H11255-567 with µ 1 and µ 2 Cru) may include a neutron star formed in another SN, up to ∼ 1.8 Myr ago at 89 − 112 pc, i.e. also yielding 60 Fe detectable on Earth. Our scenario links 60 Fe found on Earth to one or two individual supernovae in multiple stars.

show abstract

Section: Introduction: 60 Fe On Earthmentioning

confidence: 54%

Section: Introduction: 60 Fe On Earthmentioning

confidence: 99%

A nearby recent supernova that ejected the runaway star ζ Oph, the pulsar PSR B1706−16, and 60Fe found on Earth

Neuhäuser

Gießler

Hambaryan

2019

Monthly Notices of the Royal Astronomical Society

View full text Add to dashboard Cite

show abstract

“…The combination of a very high rotational velocity, high Galactic latitude, slightly large radial velocity and mild CNO enhancement is suggestive of a history of binary interaction. LSE 163 then would be the result of interaction in a binary system where it gained mass and angular momentum from a massive companion that exploded (see Renzo et al 2019, and comments in the LSE 45 paragraph), although in this scenario it is difficult to explain the high temperature at the surface. Alternatively, we may consider LSE 163 being a mildly stripped star, following the recent work by Götberg et al (2018).…”

Section: Discussionmentioning

confidence: 99%

Analysis of absorption lines in the high-resolution spectra of five hot post-AGB candidates

Herrero

Parthasarathy

Hubrig

et al. 2020

Monthly Notices of the Royal Astronomical Society

View full text Add to dashboard Cite

From an analysis of absorption lines in the high resolution spectra we have derived the radial velocities, stellar parameters (T eff , log g, wind-strength parameter log Q and projected rotational velocity) and abundances (C, N, O, and Si ) of IRAS 17460-3114, IRAS 18131-3008, IRAS 19336-0400, LSE 45 and LSE 163. Abundances are found to be solar, except for a low Si abundance in IRAS 19336-0400 and a mild CNO pattern in LSE 163, that rotates at an unusual large rotational velocity for its spectral classification. Combining the stellar parameters information with Gaia DR2 data we are able to derive absolute magnitudes, radii and luminosities and clarify the possible post-AGB nature of the objects. IRAS 17460-3114 and IRAS 18131-3008 are found to be massive OB stars, whereas IRAS 19336-0400 is found to be a post-AGB star, already showing nebular lines in the spectrum. However, we could not confirm the nature of LSE 45 and LSE 163 as post-AGB stars, although their parameters are much more inconsistent with those of massive stars. In both cases, we find a discrepancy between the spectroscopic mass and that derived from the predictions of post-AGB evolutionary tracks. In addition, LSE 45 lacks nebular lines, that are present in IRAS 19336-0400 at a similar temperature. In the case of LSE 163 the rotational velocity (259±15 km s −1 ) would be extremely large for a star evolving to CSPN. The combination of this rotational velocity, the high Galactic latitude, slightly large radial velocity and mild CNO enhancement suggests a history of binary interaction.

show abstract

“…Here we neglect the metallicity difference between both systems, which, indeed, for stars below 40 M , is not expected to cause big differences (e.g., Brott et al 2011), at the level of the accuracy of our consideration. Shao & Li exploit the advantage of rapid binary calculations by producing four population models for Galatic MS+BH binaries, which differ in the assumptions made for the BH kick distribution (see also Renzo et al 2019). They find that essentially no low-mass BH-binaries are produced if efficient BH kicks are assumed.…”

Section: Comparison With Earlier Workmentioning

confidence: 99%

Properties of OB star−black hole systems derived from detailed binary evolution models

Langer

Schürmann

Stoll

et al. 2020

A&A

Self Cite

View full text Add to dashboard Cite

Context. The recent gravitational wave measurements have demonstrated the existence of stellar mass black hole binaries. It is essential for our understanding of massive star evolution to identify the contribution of binary evolution to the formation of double black holes. Aims. A promising way to progress is investigating the progenitors of double black hole systems and comparing predictions with local massive star samples such as the population in 30 Doradus in the Large Magellanic Cloud (LMC). Methods. To this purpose, we analyse a large grid of detailed binary evolution models at LMC metallicity with initial primary masses between 10 and 40 M , and identify which model systems potentially evolve into a binary consisting of a black hole and a massive main sequence star. We then derive the observable properties of such systems, as well as peculiarities of the OB star component. Results. We find that ∼3% of the LMC late O and early B stars in binaries are expected to possess a black hole companion, when assuming stars with a final helium core mass above 6.6 M to form black holes. While the vast majority of them may be X-ray quiet, our models suggest that these may be identified in spectroscopic binaries, either by large amplitude radial velocity variations ( ∼ > 50 km s −1 ) and simultaneous nitrogen surface enrichment, or through a moderate radial velocity ( ∼ > 10 km s −1 ) and simultaneously rapid rotation of the OB star. The predicted mass ratios are such that main sequence companions could be excluded in most cases. A comparison to the observed OB+WR binaries in the LMC, Be/X-ray binaries, and known massive BH binaries supports our conclusion. Conclusions. We expect spectroscopic observations to be able to test key assumptions in our models, with important implications for massive star evolution in general, and for the formation of double-black hole mergers in particular.

show abstract

Massive runaway and walkaway stars

Cited by 201 publications

References 196 publications

A nearby recent supernova that ejected the runaway star ζ Oph, the pulsar PSR B1706−16, and 60Fe found on Earth

A nearby recent supernova that ejected the runaway star ζ Oph, the pulsar PSR B1706−16, and 60Fe found on Earth

Analysis of absorption lines in the high-resolution spectra of five hot post-AGB candidates

Properties of OB star−black hole systems derived from detailed binary evolution models

Contact Info

Product

Resources

About