2006
DOI: 10.1051/0004-6361:20065076
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Effects of metallicity, star-formation conditions, and evolution in B and Be stars

Abstract: Aims. We search for the effects of metallicity on B and Be stars in the Small and Large Magellanic Clouds (SMC and LMC) and in the Milky Way (MW), by extending our previous analysis of B and Be star populations in the LMC to the SMC. The rotational velocities of massive stars and the evolutionary status of Be stars are examined with respect to their environments. Methods. Spectroscopic observations of hot stars belonging to the young cluster SMC-NGC 330 and its surrounding region were obtained with the VLT-GIR… Show more

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Cited by 148 publications
(238 citation statements)
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“…The fact that we do not detect the clusters at 70 µm (with the possible exception of NGC 2164) means that either the assumed number of evolved massive stars (and their mass-loss rates) are overestimated (as they are meant to be upper limits), or the clusters are efficient at removing any gas/dust released in the cluster. We note that some of the younger clusters (e.g., NGC 330) may have a significant number of Be stars within them that may also contribute gas and dust to the host cluster (e.g., Martayan et 2007), further emphasising the efficiency of the gas/dust removal process from young ( 300 Myr) clusters. Also, we note that the mass loss rates of RSGs and AGBs are expected to be highly time variable, with the high mass loss rate phase being short-lived (e.g., van Loon, Marshall, & Zijlstra 2005).…”
Section: Dust Production Within the Clustersmentioning
confidence: 85%
“…The fact that we do not detect the clusters at 70 µm (with the possible exception of NGC 2164) means that either the assumed number of evolved massive stars (and their mass-loss rates) are overestimated (as they are meant to be upper limits), or the clusters are efficient at removing any gas/dust released in the cluster. We note that some of the younger clusters (e.g., NGC 330) may have a significant number of Be stars within them that may also contribute gas and dust to the host cluster (e.g., Martayan et 2007), further emphasising the efficiency of the gas/dust removal process from young ( 300 Myr) clusters. Also, we note that the mass loss rates of RSGs and AGBs are expected to be highly time variable, with the high mass loss rate phase being short-lived (e.g., van Loon, Marshall, & Zijlstra 2005).…”
Section: Dust Production Within the Clustersmentioning
confidence: 85%
“…While extremely rapid rotation is a necessary condition for the Be phenomenon, it is not clear whether it is also sufficient or which other conditions need to be fulfilled. There are reports suggesting that the Be phenomenon also depends on metallicity (Maeder et al 1999) and Tables A.1, A.2, B.1, B.2, C.1-C9 is only available in electronic form at the CDS via anonymous ftp to cdsarc.u-strasbg.fr (130.79.128.5) or via http://cdsweb.u-strasbg.fr/cgi-bin/qcat?J/A+A/509/A11 evolutionary phase (e.g., Fabregat & Torrejón 2000;Martayan et al 2007b). An obvious method for investigating the latter possibility is the study of open star clusters with a suitable range of ages.…”
Section: Introductionmentioning
confidence: 99%
“…From our SMC data and results obtained by Zorec et al (2005) Martayan et al 2007), which holds the key to our understanding of the distribution seen in Figure 2: • In massive Milky Way Be stars, Ω Ωc is sufficient to develop Be-star symptoms at the beginning of the main sequence. Due to wind-driven mass loss, the angular momentum decreases until Ω Ωc drops to below the threshold of 0.7 and the initial Be-star appearance will be lost after ∼5 − 10 Myr.…”
Section: Metallicity-dependent Evolution Of Rotational Velocitiesmentioning
confidence: 63%
“…In particular, rotational velocities were determined as well as the statistical, fractional angular breakup velocity for Be stars of different ages (see Martayan et al 2007). …”
Section: Iaus266 Evolution and Appearance Of Be Stars In Smc Clustersmentioning
confidence: 99%