Observations indicate that many fast-rotating stars are in binary systems with companions at separations of tens of astronomical units, suggesting a possible link between multiplicity and stellar spin. While disc-locking tends to spin down young stars, shortened disc lifetimes—common in binary systems due to disc truncation—can reduce spin-down, but this alone does not explain the initial distribution of stellar rotation rates.
Existing models of rotational evolution over up to 1 Gyr reproduce fast rotators by assuming shorter disc lifetimes, yet they do not explain how stars acquire their initial spins. This motivates the explicit open question of identifying the physical processes that determine the initial stellar spin at birth.