We discuss the interpretation of transient, unpulsed radio emission detecte
d from the unique pulsar/Be star binary system PSR B1259-63. Extensive moni
toring of the 1994 and 1997 periastron passages has shown that the source f
lares over a 100 day interval around periastron, varying on timescales as s
hort as a day and peaking at 60 mJy (similar to 100 times the apastron flux
density) at 1.4 GHz. Interpreting the emission as synchrotron radiation, w
e show that (i) the observed variations in flux density are too large to be
caused by the shock interaction between the pulsar wind and an isotropic,
radiatively driven, Be star wind and (ii) the radio-emitting electrons do n
ot originate from the pulsar wind. We argue instead that the radio electron
s originate from the circumstellar disk of the Be star and are accelerated
at two epochs, one before and one after periastron, when the pulsar passes
through the disk. A simple model incorporating two epochs of impulsive acce
leration followed by synchrotron cooling reproduces the essential features
of the radio light curve and spectrum and is consistent with the system geo
metry inferred from pulsed radio data.