2013
DOI: 10.1007/s10511-013-9301-x
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Possible Overionization of C II, N II, and O II Ions in the Atmospheres of Early B- and Late O-Type Stars

Abstract: The reliability of C, N, and O abundances determined from lines of C II, N II, and O II in the mainsequence (MS) early B-and late O-type stars is examined. This analysis is based on a fact of K for N II and O II) yield the undistorted C, N and O abundances, and their average values agree very well with modern estimates for the sun. This confirms that the metallicity of B-and O-type MS stars in the Sun's vicinity is the same as that of the sun. An explanation is given for the slight deficit of carbon found for … Show more

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Cited by 10 publications
(13 citation statements)
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“…This is confirmed by UV observations of two early B-type stars, b CMa (B1 II-III) and e CMa (B2 II), with the EUVE satellite. The observed flux was greater than the theoretical value by two orders of magnitude for λ  504Å and by several times for λ 912Å .It has been reported[39] that there appears to be superionization of C II, N II, and O II ions in the atmospheres of early B-and late O-type stars that is not taken into account in conventional calculations. It becomes significant at temperatures T eff > 18500 K in the case of C II lines and T eff > 26000 K for N II and O II lines.…”
mentioning
confidence: 59%
“…This is confirmed by UV observations of two early B-type stars, b CMa (B1 II-III) and e CMa (B2 II), with the EUVE satellite. The observed flux was greater than the theoretical value by two orders of magnitude for λ  504Å and by several times for λ 912Å .It has been reported[39] that there appears to be superionization of C II, N II, and O II ions in the atmospheres of early B-and late O-type stars that is not taken into account in conventional calculations. It becomes significant at temperatures T eff > 18500 K in the case of C II lines and T eff > 26000 K for N II and O II lines.…”
mentioning
confidence: 59%
“…Nieva & Przybilla (2012) estimated "cosmic" standard abundances (rather the present-day abundances in the solar neighborhood) using bright, slowlyrotating, early-type B stars. Due to their short main sequence lives, B stars contain abundance information that is both contemparaneous and local, and their purely radiative atmospheres are comparatively simple to model, although UV photoionization rates must be correctly modeled (Lyubimkov 2013). Nieva & Przybilla (2012) report metallicities that are very close to solar, depsite 4.5 Gyr of intervening GCE, and a mean C/O of 0.37, lower than the solar value of 0.55.…”
Section: Discussionmentioning
confidence: 99%
“…It should be noted that the solar C, N and O abundances are known presently with high accuracy. For instance, if one takes Caffau et al (2011) Apart from these very close solar data, we used the above-mentioned CNO-abundances determined for the unevolved early B-type MS stars (Lyubimkov 2013). These data can be actually considered as the initial abundances for AFG supergiants and bright giants, which are descendants of the B-type MS stars.…”
Section: The N/c Vs N/o Relationmentioning
confidence: 99%