Kalari, V. M. ; Salinas, R. ; Sáez-Carvajal, C. ; Oudmaijer, René ; Howell, S. ; Caballero-Nieves, S. ; Kamp, K. ; Matson, R. ; Scott, N. ; Cao, T. ; Hartman, Z. ; Kim, H.

published in Astrophysical Journal, 993 issue 2, pp. 192 (2025)

Abstract: Be stars are widely considered to be the product of binary interaction. However, whether all Be stars are formed via binary interaction is unclear, and detailed estimates of the multiplicity of Be stars and characterization of their components are required. In this study, we present speckle observations of 76 Be stars taken using the Gemini North and South speckle imagers spanning angular separations of 20 mas–1.2, reaching contrasts Δm ∼ 5–6 mag at separations around 0.1. We identify 11 (6 previously unreported) binaries having separations in the 10–1000 au range, and Δm between 0.8 and 5 mag in our sample. Using archival data to search for components outside our visibility range, we add further multiples (16), which include three triples, leading to a total of 24 multiple systems. Our findings rule out a multiplicity fraction >27% at the 3σ level within the speckle observations separation range and detection limits. Future homogeneous spectroscopic/interferometric observations are essential to probe the inner separations, and along with analysis of available astrometry can cover the entire separation range to characterize the multiplicity fraction, and evolutionary scenario of Be stars.

Keyword(s): Be stars ; Speckle Interferometry ; Binary Stars
DOI: 10.3847/1538-4357/ae0731
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