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Massive B-type pulsators in low-metallicity environments

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arxiv 0809.4661 v2 pith:WF2UTAQ5 submitted 2008-09-26 astro-ph

Massive B-type pulsators in low-metallicity environments

classification astro-ph
keywords starsbetaopacitytheoryenvironmentsincreasedlow-metallicitymagellanic
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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Massive B type pulsators such as beta Cep and slowly pulsating B (SPB) stars pulsate due to layers of increased opacity caused by partial ionization. The increased opacity blocks the energy flux to the surface of the stars which causes the layers to rise and the opacity to drop. This cyclical behavior makes the star act as a heat engine and the star will thus pulsate. For beta Cep and SPB stars the increased opacity is believed to be caused by partial ionization of iron and these stars should therefore contain non-insignificant quantities of the metal. A good test of this theory is to search for beta Cep and SPB stars in low-metallicity environments. If no stars are found the theory is supported, but on the other hand if a substantial number of beta Cep and SPB stars are found in these environments then the theory is not supported and a solutions needed. With a growing number of identified beta Cep and SPB stars in the low-metallicity Magellanic Clouds we seem to be left with the second case. We will in this context discuss recent findings of beta Cep and SPB stars in the Magellanic Clouds and some possible solutions to the discrepancy between these observations and the theory. We also describe an ambitious project that we have initiated on the Small Magellanic Cloud open cluster NGC 371 which will help to evaluate these solutions.

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