THE COLLAPSE OF WHITE-DWARFS TO NEUTRON-STARS

The observable consequences of an accreting white dwarf collapsing directly to a neutron star are considered. The outcome depends critically upon the nature of the wind that is driven by neutrino absorption in the surface layers as the dwarf collapses. Unlike previous calculations which either ignored mass loss or employed inadequate zoning to resolve it, we find a characteristic mass-loss rate of about 0.005 M. s-1 and an energy input of 5 x 10(50) ergs s-1. Such a large mass-loss rate almost completely obscures any prompt electromagnetic display and certainly rules out the production by this model of gamma-ray bursts situated at cosmological distances. The occurrence of such collapses within our own Galaxy might, however, be detected and limited by their nucleosynthesis and gamma-ray line emission. To avoid the overproduction of rare neutron-rich isotopes heavier than iron, such-events must be very infrequent, probably happening no more than once every thousand years.