Journal
MONTHLY NOTICES OF THE ROYAL ASTRONOMICAL SOCIETY
Volume 497, Issue 3, Pages 3166-3179Publisher
OXFORD UNIV PRESS
DOI: 10.1093/mnras/staa2169
Keywords
hydrodynamics; methods: analytic; methods: numerical; binaries: close; stars: evolution; dust, extinction
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Funding
- Postodoctoral Research Fellowship of the Japan Society for the Promotion of Scienc [JSPS P18753]
- JSPS KAKENHI [17H02864, 18H04585, 18H05223, 20H00174, 20H04737, 18K03707]
- Grants-in-Aid for Scientific Research [18K03707, 20H04737, 20H00174] Funding Source: KAKEN
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We study the formation of dust in the expanding gas ejected as a result of a common envelope binary interaction. In our novel approach, we apply the dust formation model of Nozawa et al. to the outputs of the 3D hydrodynamic SPH simulation performed by Iaconi et al. that involves a giant of 0.88 M-circle dot and 83 R-circle dot, with a companion of 0.6 M-circle dot placed on the surface of the giant in circular orbit. After simulating the dynamic in-spiral phase, we follow the expansion of the ejecta for similar or equal to 18 000 d. During this period, the gas is able to cool down enough to reach dust formation temperatures. Our results show that dust forms efficiently in the window between similar or equal to 300 d (the end of the dynamic in-spiral) and similar or equal to 5000 d. The dust forms in two separate populations; an outer one in the material ejected during the first few orbits of the companion inside the primary's envelope and an inner one in the rest of the ejected material. We are able to fit the grain-size distribution at the end of the simulation with a double power law. The slope of the power law for smaller grains is flatter than that for larger grains, creating a knee-shaped distribution. The power-law indexes are, however, different from the classical values determined for the interstellar medium. We also estimate that the contribution to cosmic dust by common envelope events is not negligible and comparable to that of novae and supernovae.
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