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Abstract

Context. A key property of massive stars is their high degree of multiplicity, which can impact their evolution and end-of-life products. The Southern Massive Stars at High Angular Resolution survey (smash+) use interferometric and high-angular resolution techniques to detect companions at intermediate separations, from about 1 milli-arsec to 8"), a domain that so far has remained largely unexplored. Aims. In this paper, we convert the angular separations and magnitude contrasts into physical units, i.e. projected physical separations and mass ratios. We also derive the sensitivity of the survey for various physical and orbital parameters. Methods. We develop a spectral-type/luminosity class -- H-band luminosity -- mass calibration based on existing grids of physical parameters of OBA stars and we use these to obtain the photometric distance to each system, correcting for all known companions within the 2MASS point-spread function. We also derive the individual masses of the primaries and of each detected companion. Results The probability of detecting companions is very uniform within the sensitivity limits of the \smash\ survey. The projected separations follow a flat power-law distribution in log-separation. The obtained mass ratios are compatible with the power-law distributions derived for spectroscopic binaries. Finally, we find a uniform mass-ratio distribution up to ~100 AU. Beyond ~100 AU, we observe a lack of equal-mass companions, with an upper mass-ratio limit declining towards larger separations.