Title: ------ Flash ionization of the partially ionized wind of the progenitor of SN 1987A (Stockholm Observatory Supernova preprint No. STOCK_SN_008) Author: -------- Peter Lundqvist Abstract: --------- The H II region created by the progenitor of SN 1987A was further heated and io- nized by the supernova flash. Prior to the flash, the temperature of the gas was 4000 - 5000 K, and helium was neutral, while the post-flash temperature was only slightly less than 10^5 K, with the gas being ionized to helium-like ionization stages of C, N and O. We have followed the slow post-flash cooling and recombi- nation of the gas, as well as its line emission, and find that the strongest lines should be N V 1240 and O VI 1034. Both these lines are good probes for the density of the gas, and suitable instruments to detect the lines are STIS on HST and FUSE, respectively. Other lines which may be detectable are N IV] 1486 and [O III] 5007, though they are expected to be substantially weaker. The relative strength of the oxygen lines is found to be a good tracer of the color tempera- ture of the supernova flash. From previous observations, we put limits on the hydrogen density, n_H, of the H II region. The early N V 1240 flux measured by IUE gives an upper limit which is n_H ~ 180 \eta^{-0.40} cm^{-3}, where \eta is the filling factor of the gas. The recently reported emission in [O III] 5007 at 2500 days requires n_H = (160\pm12) \eta^{-0.19} cm^{-3}, for a supernova burst similar to that in the 500full1 model of Ensman & Burrows (1992). For the more energetic 500full2 burst the density is n_H = (215\pm15) \eta^{-0.19} cm^{-3}. These values are much higher than in models of the X-ray emission from the supernova (n_H ~ 75 cm^{-3}), and it seems plausible that the observed [O III] emission is produced primarily else where than in the H II region. We also discuss the type of progenitor consistent with the H II region. In parti- cular, it seems unlikely that its spectral type was much earlier than B2 Ia. To appear in: ------------- ApJ (Main Journal), Vol. 511, January 20 issue, 1999