_version_ 1866912397114998784
author Villaseñor, J. I.
Sana, H.
Mahy, L.
Shenar, T.
Bodensteiner, J.
Britavskiy, N.
Lennon, D. J.
Moe, M.
Patrick, L. R.
Pawlak, M.
Bowman, D. M.
Crowther, P. A.
de Mink, S. E.
Deshmukh, K.
Evans, C. J.
Fabry, M.
Fouesneau, M.
Herrero, A.
Holgado, G.
Langer, N.
Apellániz, J. Maíz
Mandel, I.
Oskinova, L. M.
Pauli, D.
Ramachandran, V.
Renzo, M.
Rix, H. -W.
Rocha, D. F.
Sander, A. A. C. S.
Schneider, F. R. N.
Sen, K.
Simón-Díaz, S.
van Loon, J. Th.
Toonen, S.
Vink, J. S.
author_facet Villaseñor, J. I.
Sana, H.
Mahy, L.
Shenar, T.
Bodensteiner, J.
Britavskiy, N.
Lennon, D. J.
Moe, M.
Patrick, L. R.
Pawlak, M.
Bowman, D. M.
Crowther, P. A.
de Mink, S. E.
Deshmukh, K.
Evans, C. J.
Fabry, M.
Fouesneau, M.
Herrero, A.
Holgado, G.
Langer, N.
Apellániz, J. Maíz
Mandel, I.
Oskinova, L. M.
Pauli, D.
Ramachandran, V.
Renzo, M.
Rix, H. -W.
Rocha, D. F.
Sander, A. A. C. S.
Schneider, F. R. N.
Sen, K.
Simón-Díaz, S.
van Loon, J. Th.
Toonen, S.
Vink, J. S.
contents Early B-type stars ($M_i=8-15$ M$_\odot$) are frequently in multiple systems, as evidenced by spectroscopic campaigns in the Milky Way (MW) and the Large Magellanic Cloud (LMC). Previous studies have shown no strong metallicity dependence in the close-binary (a>10 au) fraction or orbital-period distributions between the MW's solar metallicity (Z$_\odot$) and that of the LMC (Z=0.5 Z$_\odot$). However, similar analyses in more metal-poor environments are still scarce. We focus on 309 early B-type stars (luminosity classes III-V) from the Binarity at LOw Metallicity campaign in the Small Magellanic Cloud (SMC, Z=0.2 Z$_\odot$) using VLT/FLAMES multi-epoch spectroscopy. By applying binary detection criteria consistent with previous works, we identify 153 stars (91 SB1, 59 SB2, 3 SB3) exhibiting significant radial-velocity (RV) variations, resulting in an observed multiplicity fraction of $f^{obs}_{mult}=50\pm3\%$. Using Monte Carlo simulations to account for observational biases, we infer an intrinsic close-binary fraction of $f_{mult}=80\pm8\%$. A Markov chain Monte Carlo analysis of the peak-to-peak RV distribution ($Δ{\rm RV}_{\rm max}$) confirms a high multiplicity fraction of $f_{mult}=78\pm5\%$. These findings suggest a possible anti-correlation between metallicity and the fraction of close B-type binaries, with the SMC multiplicity fraction significantly exceeding previous measurements in the LMC and MW. The enhanced fraction of close binaries at SMC's low metallicity may have broad implications for massive-star evolution in the early Universe. More frequent mass transfer and envelope stripping could boost the production of exotic transients, stripped supernovae, gravitational-wave progenitors, and sustained UV ionising flux, potentially affecting cosmic reionisation. Theoretical predictions of binary evolution under metal-poor conditions will provide a key test of our results.
format Preprint
id arxiv_https___arxiv_org_abs_2503_21936
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Binarity at LOw Metallicity (BLOeM): Enhanced multiplicity of early B-type dwarfs and giants at $Z=0.2\,{\rm Z}_\odot$
Villaseñor, J. I.
Sana, H.
Mahy, L.
Shenar, T.
Bodensteiner, J.
Britavskiy, N.
Lennon, D. J.
Moe, M.
Patrick, L. R.
Pawlak, M.
Bowman, D. M.
Crowther, P. A.
de Mink, S. E.
Deshmukh, K.
Evans, C. J.
Fabry, M.
Fouesneau, M.
Herrero, A.
Holgado, G.
Langer, N.
Apellániz, J. Maíz
Mandel, I.
Oskinova, L. M.
Pauli, D.
Ramachandran, V.
Renzo, M.
Rix, H. -W.
Rocha, D. F.
Sander, A. A. C. S.
Schneider, F. R. N.
Sen, K.
Simón-Díaz, S.
van Loon, J. Th.
Toonen, S.
Vink, J. S.
Solar and Stellar Astrophysics
Astrophysics of Galaxies
Early B-type stars ($M_i=8-15$ M$_\odot$) are frequently in multiple systems, as evidenced by spectroscopic campaigns in the Milky Way (MW) and the Large Magellanic Cloud (LMC). Previous studies have shown no strong metallicity dependence in the close-binary (a>10 au) fraction or orbital-period distributions between the MW's solar metallicity (Z$_\odot$) and that of the LMC (Z=0.5 Z$_\odot$). However, similar analyses in more metal-poor environments are still scarce. We focus on 309 early B-type stars (luminosity classes III-V) from the Binarity at LOw Metallicity campaign in the Small Magellanic Cloud (SMC, Z=0.2 Z$_\odot$) using VLT/FLAMES multi-epoch spectroscopy. By applying binary detection criteria consistent with previous works, we identify 153 stars (91 SB1, 59 SB2, 3 SB3) exhibiting significant radial-velocity (RV) variations, resulting in an observed multiplicity fraction of $f^{obs}_{mult}=50\pm3\%$. Using Monte Carlo simulations to account for observational biases, we infer an intrinsic close-binary fraction of $f_{mult}=80\pm8\%$. A Markov chain Monte Carlo analysis of the peak-to-peak RV distribution ($Δ{\rm RV}_{\rm max}$) confirms a high multiplicity fraction of $f_{mult}=78\pm5\%$. These findings suggest a possible anti-correlation between metallicity and the fraction of close B-type binaries, with the SMC multiplicity fraction significantly exceeding previous measurements in the LMC and MW. The enhanced fraction of close binaries at SMC's low metallicity may have broad implications for massive-star evolution in the early Universe. More frequent mass transfer and envelope stripping could boost the production of exotic transients, stripped supernovae, gravitational-wave progenitors, and sustained UV ionising flux, potentially affecting cosmic reionisation. Theoretical predictions of binary evolution under metal-poor conditions will provide a key test of our results.
title Binarity at LOw Metallicity (BLOeM): Enhanced multiplicity of early B-type dwarfs and giants at $Z=0.2\,{\rm Z}_\odot$
topic Solar and Stellar Astrophysics
Astrophysics of Galaxies
url https://arxiv.org/abs/2503.21936