TIDAL FRICTION IN TRIPLE STARS

Tidal friction in close binaries, with periods of a few days, is expec ted to circularize the orbit on a time-scale long compared with human observation but shorter than, or comparable to, the lifetimes of main- sequence stars. In a hierarchical triple star, however, the perturbing effect of the distant third star may decircularize the inner orbit si gnificantly on a time-scale of the order of days (as in lambda Tau) or centuries (as in beta Per). If the inner pair is observed to be semid etached, however, it is plausible to assume that the eccentricity is s mall. This may be because tidal friction is operating on a comparably short time-scale, and so it is in principle amenable to observation. W e attempt to determine a lower limit to the strength of tidal friction in lambda Tau and beta Per, on the basis of this consideration. Tidal friction will also lead to a secular transfer of angular momentum fro m the inner orbit to the outer orbit. Too rapid a transfer may lead to orbital shrinkage that is fast compared with the nuclear time-scales of the inner systems, and this can also be ruled out on observational grounds. Thus we may be able to set an upper as well as a lower limit to the strength of tidal friction, on the basis of observations. In a young hierarchical triple, provided that the orbits are fairly nearly orthogonal, tidal friction can serve to reduce the inner orbital perio d from months to days within a fairly short period of time, of order P -out(2)/P-in. This may be a significant mechanism inr producing young short-period binaries.