Not so fast: LB-1 is unlikely to contain a 70 M-circle dot black hole

The recently discovered binary LB-1 has been reported to contain a similar to 70 M-circle dot black hole (BH). The evidence for the unprecedentedly high mass of the unseen companion comes from reported radial velocity (RV) variability of the H-alpha emission line, which has been proposed to originate from an accretion disc around a BH. We show that there is in fact no evidence for RV variability of the H-alpha emission line, and that its apparent shifts instead originate from shifts in the luminous star's H-alpha absorption line. If not accounted for, such shifts will cause a stationary emission line to appear to shift in antiphase with the luminous star. We show that once the template spectrum of a B star is subtracted from the observed Keck/HIRES spectra of LB-1, evidence for RV variability vanishes. Indeed, the data rule out periodic variability of the line with velocity semi-amplitude K-H alpha > 1.3 km s(-1). This strongly suggests that the observed H-alpha emission does not originate primarily from an accretion disc around a BH, and thus that the mass ratio cannot be constrained from the relative velocity amplitudes of the emission and absorption lines. The nature of the unseen companion remains uncertain, but a 'normal' stellar-mass BH with mass 5 less than or similar to M/M-circle dot less than or similar to 20 seems most plausible. The H-alpha emission likely originates primarily from circumbinary material, not from either component of the binary.