Scientists map hidden diversity in rare stellar explosions
Researchers analyzed 61 Type Ibn supernovae—rare cosmic events triggered by stellar collisions—and discovered they vary far more widely than previously thought. The findings could improve how astronomers use these explosions as cosmic distance markers and test fundamental theories about stellar evolution.
Originaltitel: Characterization of Type Ibn Supernovae
<p><em>Context</em>. Type Ibn supernovae (SNe) are characterized by narrow helium (He I) lines from photons produced by the unshocked circumstellar material (CSM). About 80 SNe Ibn have been discovered to date and only a handful of them have extensive observational records. Thus, many open questions remain regarding the progenitor system and the origin of CSM.</p><p><em>Aims</em>. Here, we investigate potential correlations between the spectral features of the prominent He I <em>λ</em>5876 Å line and the optical and X-ray light curve properties of Type Ibn SNe (SNe Ibn).</p><p><em>Methods</em>. We compiled the largest sample of 61 SNe Ibn to date, of which 24 SNe have photometric and spectroscopic data available from the Young Supernova Experiment and 37 SNe benefit from archival datasets. We fit 24 SNe Ibn with sufficient photometric coverage (<em>B</em> to <em>z</em> bands) using semi-analytical models from MOSFiT.</p><p><em>Results</em>. We demonstrate that the light curves of SNe Ibn are more diverse than previous analyses suggest, with absolute <em>r</em>-band peak magnitudes (<em>r</em><sub>max</sub>) of −19.4 ± 0.6 mag, along with rise (from −10 days to peak, <em>γ</em><sub>−10</sub>) and decay rates (from peak to +10 days; <em>γ</em><sub>+10</sub>) of −0.08 ± 0.06 and 0.08 ± 0.03 mag/day, respectively. We find that the majority of SNe Ibn in the subsample are consistent with a low-energy explosion (< 10<sup>51</sup> erg) of a star with a compact envelope surrounded by ~0.1 M<sub>⊙</sub> of helium-rich CSM. The inferred ejecta masses are small (<em>M</em><sub>ej</sub> ~ 1 M<sub>⊙</sub>) and expand with a velocity of ~5000 km/s. Our spectroscopic analysis shows that the mean velocity of the narrow component of the He I lines, associated with the CSM, peaks at ~1100 km/s.</p><p><em>Conclusions</em>. The mean CSM and ejecta masses inferred for a subsample of SNe Ibn indicate that their progenitors are not massive (~10 M<sub>⊙</sub>) single stars at the moment of explosion; rather, they are likely to be binary systems. This finding is in agreement with detections of potential companion stars of SNe Ibn progenitors and inferred CSM properties from stellar evolution models.</p>