Abstract
The presence of narrow high-temperature emission lines from nitrogen-rich gas close to SN 1987A has been a principal observational constraint on the evolutionary status of the supernova's progenitor. A new analysis of the complete 5 year set of low- and high-resolution IUE ultraviolet spectra of SN 1987A (1987.2-1992.3) provides fluxes for the N V ?1240, N IV] ?1486, He II ?1640, O III] ?1665, N III] ?1751, and C III] ?1908 lines with significantly reduced random and systematic errors and reveals significant short-term fluctuations in the light curves. The N V, N IV], and N III] lines turn on sequentially over 15-20 days and show a progression from high to low ionization potential, implying an ionization gradient in the emitting region. The line emission turns on suddenly at 83 ? 4 days after the explosion, as defined by N IV]. The N III] line reaches peak luminosity at 399 ? 15 days. A ring radius of (6.24 ? 0.20) ? 1017 cm and inclination of 410 ? 39 is derived from these times, assuming a circular ring. The probable role of resonant scattering in the N V light curve introduces systematic errors that leads us to exclude this line from the timing analysis. A new nebular analysis yields improved CNO abundance ratios of N/C = 6.1 ? 1.1 and N/O = 1.7 ? 0.5, confirming the nitrogen enrichment found in our previous paper. From the late-time behavior of the light curves we find that the emission originates from progressively lower density gas and that the emitting region has a multicomponent density structure. We estimate the emitting mass near maximum (~400 days) to be ~4.7 ? 10-2 M?, assuming a filling factor of unity and an electron density of 2.6 ? 104 cm-3. These results are discussed in the context of current models for the emission and hydrodynamics of the ring.
Highlights
Background Star SubtractionSubtraction of the reference spectrum of stars 2 and 3 from the observed spectrum requires that the two wavelength scales be registered to correct for any o†set
The wavelength shift required to properly align stars 2 and 3 with the observed spectrum was computed with an interactive cross-correlation program from the NASA/GSFC International Ultraviolet Explorer (IUE) Data Analysis Center software library
The absolute dimensions of the emitting region can be derived from the shape of the UV light curves with some basic assumptions about its geometry, mainly a circular thin ring. For this purpose we summarize the main features of the recombination/coolingÈlight echo scenario
Summary
Weak, and it was difficult to say anything conclusive about their light curves. The increase in the Ñuxes stopped just after the last observations discussed in Paper I, D400 days after explosion. A subsequent analysis, taking the ring geometry into account, resulted in a peak radiation temperature in excess of 106 K (Lundqvist & Fransson 1996, hereafter LF96) These emission-line observations provide important information about the Ðrst moments of the supernova explosion. Twenty SWP high-dispersion spectra of SN 1987A were obtained during the UV emission-line phase (75 \ t \ 1800) days These observations and their analysis are discussed below in ° 4.4. The identiÐcation of the progenitor hinged on close scrutiny of these two previously unknown stars in the LMC located within arcseconds of the supernovaÏs position Analysis of their spatial separation in SWP low-dispersion spectra taken several weeks after outburst showed that Sk [69¡202 had disappeared (Gilmozzi et al 1987 ; Sonneborn, Altner, & Kirshner 1987).
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