The binary landscape of massive stars at low Z: Insights from the BLOeM Campaign
Abstract
We present an overview of our recent results from the BLOeM campaign in the Small Magellanic Cloud (Z=0.2\, Z). Using nine-epoch VLT/FLAMES spectroscopy, we investigated the multiplicity of 929 massive stars. Our findings reveal contrasting binary properties across evolutionary stages: O-type stars show an intrinsic close-binary fraction of 70\%, and early B-type dwarfs/giants reach 80\%, exceeding higher-metallicity samples. In contrast, B0-B3 supergiants drop to 40\%, and A-F supergiants to 8\%; intrinsic variability likely inflates the latter, so the true multiplicity may be lower. OBe stars display distinct binary properties consistent with a post-interaction origin. These results have profound implications for massive-star evolution at low metallicity, including the production of exotic transients, gravitational-wave progenitors, and ionising radiation in the early Universe.
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