Radii and Mass-loss Rates of Type IIb Supernova Progenitors

Ouchi, Ryoma; Maeda, Keiichi

doi:10.3847/1538-4357/aa6ea9

Cited by 53 publications

(68 citation statements)

References 48 publications

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“…, when averaged over the final 1000 years before the SN explosion (Ouchi & Maeda 2017), which is comparable to that inferred from the radio observations for SN 2001ig (Ryder et al 2004). The CSM produced by the binary interaction could be the cause of the observed He II λ4686 feature discussed in Section 3.2.…”

Section: Binary Evolutionary Channel For the Sn 2001ig Progenitorsupporting

confidence: 82%

“…This particular BPASS model terminates with a primary core mass of ∼3.5 M e and with ∼0.04M e of H remaining. These numbers are quite similar to those yielded by the independent binary evolution models of Ouchi & Maeda (2017) for a secondary-to-primary mass ratio of 0.6<q<0.8, initial orbital period 200<P<600 days, and a low efficiency ( f≈0) of mass accretion from the primary onto the secondary. The blue loop in Figure 3 is similar to that seen in the models of Yoon et al (2017) for TypeIIb interacting binary progenitors with periods of a few hundred days, and masses closer to 10M e than 20M e .…”

Section: Photometric Properties Of the Companionsupporting

confidence: 81%

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Ultraviolet Detection of the Binary Companion to the Type IIb SN 2001ig

Ryder

Dyk

Fox

et al. 2018

ApJ

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We present HST/WFC3 ultraviolet imaging in the F275W and F336W bands of the TypeIIb SN2001ig at an age of more than 14years. A clear point source is detected at the site of the explosion, with m F275W =25.39±0.10 and m F336W =25.88±0.13 mag. Despite weak constraints on both the distance to the host galaxy NGC7424 and the line-of-sight reddening to the supernova, this source matches the characteristics of an early B-type mainsequence star with 19,000<T eff <22,000 K and3.92 0.14 bol . A BPASS v2.1 binary evolution model, with primary and secondary masses of 13M e and 9M e, respectively, is found to simultaneously resemble, in the Hertzsprung-Russell diagram, both the observed location of this surviving companion, and the primary star evolutionary endpoints for other TypeIIb supernovae. This same model exhibits highly variable late-stage mass loss, as expected from the behavior of the radio light curves. A Gemini/GMOS optical spectrum at an age of 6 years reveals a narrow He II λ4686 emission line, indicative of continuing interaction with a dense circumstellar medium at large radii from the progenitor. We review our findings on SN2001ig in the context of binary evolution channels for stripped-envelope supernovae. Owing to the uncrowded nature of its environment in the ultraviolet, this study of SN2001ig represents one of the cleanest detections to date of a surviving binary companion to a TypeIIb supernova.

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Section: Binary Evolutionary Channel For the Sn 2001ig Progenitorsupporting

confidence: 82%

Section: Photometric Properties Of the Companionsupporting

confidence: 81%

Ultraviolet Detection of the Binary Companion to the Type IIb SN 2001ig

Ryder

Dyk

Fox

et al. 2018

ApJ

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“…Götberg et al 2017Götberg et al , 2018. At low metallicity, Yoon et al (2010Yoon et al ( , 2017, Claeys et al (2011), andOuchi &Maeda (2017) show that the amount of hydrogen left at the surface of the donor star is a function of the initial orbital separation. In appendix C, we demonstrate that, for case B mass transfer, our general findings are robust against variations of the orbital period at low metallicity.…”

Section: Uncertaintiesmentioning

confidence: 99%

The expansion of stripped-envelope stars: Consequences for supernovae and gravitational-wave progenitors

Laplace

Götberg

Mink

et al. 2020

A&A

115

130

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Massive binaries that merge as compact objects are the progenitors of gravitational-wave sources. Most of these binaries experience one or more phases of mass transfer, during which one of the stars loses part or all of its outer envelope and becomes a strippedenvelope star. The evolution of the size of these stripped stars is crucial in determining whether they experience further interactions and their final fate. We present new calculations of stripped-envelope stars based on binary evolution models computed with MESA. We use these to investigate their radius evolution as a function of mass and metallicity. We further discuss their pre-supernova observable characteristics and potential consequences of their evolution on the properties of supernovae from stripped stars. At high metallicity we find that practically all of the hydrogen-rich envelope is removed, in agreement with earlier findings. Only progenitors with initial masses below 10 M expand to large radii (up to 100 R ), while more massive progenitors stay compact. At low metallicity, a substantial amount of hydrogen remains and the progenitors can, in principle, expand to giant sizes (> 400 R ), for all masses we consider. This implies that they can fill their Roche lobe anew. We show that the prescriptions commonly used in population synthesis models underestimate the stellar radii by up to two orders of magnitude. We expect that this has consequences for the predictions for gravitational-wave sources from double neutron star mergers, in particular for their metallicity dependence.

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“…Note that type II objects can also exhibit enhanced pre-SNe mass-loss rates above 10 −3 M yr −1 (e.g. Das & Ray 2017;Arcavi et al 2017), and other studies have shown that such high mass-loss rates are not so rare among type IIb SNe (Fuller 2017;Ouchi & Maeda 2017). It is then reasonable to expect ∼1 to 2 cc-SNe withṀ > 10 −4 M yr −1 occurring per year, within a radius of 18 Mpc, whatever the sub-type.…”

Section: Prospects For Future Observationsmentioning

confidence: 97%

Upper limits on very-high-energy gamma-ray emission from core-collapse supernovae observed with H.E.S.S.

Abdalla

Aharonian

Benkhali

et al. 2019

A&A

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Young core-collapse supernovae with dense-wind progenitors may be able to accelerate cosmic-ray hadrons beyond the knee of the cosmic-ray spectrum, and this may result in measurable gamma-ray emission.We searched for gamma-ray emission from ten supernovae observed with the High Energy Stereoscopic System (H.E.S.S.) within a year of the supernova event. Nine supernovae were observed serendipitously in the H.E.S.S. data collected between December 2003 and December 2014, with exposure times ranging from 1.4 hours to 53 hours. In addition we observed SN 2016adj as a target of opportunity in February 2016 for 13 hours. No significant gamma-ray emission has been detected for any of the objects, and upper limits on the > 1 TeV gamma-ray flux of the order of ∼10 −13 cm −2 s −1 are established, corresponding to upper limits on the luminosities in the range ∼2 × 10 39 erg s −1 to ∼1 × 10 42 erg s −1 . These values are used to place model-dependent constraints on the mass-loss rates of the progenitor stars, implying upper limits between ∼2 × 10 −5 and ∼2 × 10 −3 M yr −1 under reasonable assumptions on the particle acceleration parameters.

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Radii and Mass-loss Rates of Type IIb Supernova Progenitors

Cited by 53 publications

References 48 publications

Ultraviolet Detection of the Binary Companion to the Type IIb SN 2001ig

Ultraviolet Detection of the Binary Companion to the Type IIb SN 2001ig

The expansion of stripped-envelope stars: Consequences for supernovae and gravitational-wave progenitors

Upper limits on very-high-energy gamma-ray emission from core-collapse supernovae observed with H.E.S.S.

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