Probing the low-mass end of the companion mass function for O-type stars (2112.10831v1)

Abstract: Almost all massive stars are part of a binary system. Given the wide range of separations at which these companions are found, several observational techniques have been adopted to characterize them, but contrasts greater than 4 in the H-band have never been reached between 0".1 and 1". We used VLT/SPHERE to observe simultaneously with the IRDIS and IFS sub-systems 18 O-type stars within 6 kpc and ages between 1-5 Myrs to probe the existence of stellar companions in the angular separation range from 0".15 to 6" down to very low mass ratios. The IFS YJH- band observations have allowed us to probe the presence of sub-solar companions in a 1".7x1".7 field-of-view down to magnitude limits of deltaH=10 at 0".4. In the wider 12"x12" IRDIS field-of-view, we reached contrasts of deltaK=12 at 1", enabling us to look for even fainter companions. This paper presents five newly discovered intermediate (<1") separation companions, three of which are smaller than 0.2M_sun. If confirmed by future analyses of proper motions, these new detections represent the lowest-mass companions ever found around O-type stars. Assuming that all sources detected within 1" are physically bound, the observed fraction of companions for O-type stars between 0".15 and 0".9 is 0.39+/-0.15, whereas it increases to 1.6+/-0.3 in the separation range from 0".9 to 6". These findings clearly support the notion that massive stars form almost exclusively in multiple systems, and that larger AO-assisted coronagraphic surveys are crucial in placing constraints on the multiplicity properties of massive star companions in regions of the parameter space that have previously gone unexplored, and demonstrate that the companion mass function is populated down to the lowest stellar masses.