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A New Kind of Supernova

Before and after images show the detection of a new kind of very rapidly brightening supernova that took only 2.2 days to reach peak brightness.

Rest et al. 2018 and DECam/ CTIO 4-meter

The K2 Mission, an extension of the immensely successful NASA Kepler mission to search for exoplanets, has itself discovered nearly one hundred new exoplanets so far. K2 monitors stars for variability, the sign of a transiting exoplanet, but in the course of searching it makes many other variable star discoveries. CfA astronomers David James and Victoria Villar were members of a team of astronomers that discovered evidence in K2 observations for the most extreme case known of a rapidly brightening supernova. Their results appeared in Nature last week.

Normal supernova brighten dramatically (and then dim) over periods of weeks. A few recent supernova searches using faster cadences, however, have spotted a handful of luminous transients that peak more quickly, in only ten days, before fading in month. The K2 mission, with its frequent monitoring of stars, has now found an extreme case: a supernova that brightened in only 2.2 days and then dimmed in roughly a week. The process that powers this rapid, dramatic rise cannot be the same one that powers normal supernova emission, namely the radioactive decay of elements produced in the explosive event. The rise time for radioactive decay is well-understood and set by the time it takes for light to propagate through the remnant material, which in turn depends on the mass of the material. The short rise time in this object implies too little material to explain the energetics.

The scientists consider a variety of alternative scenarios, for example the brightening being driven directly by accretion processes around a black hole. They conclude however that the exploding stellar debris has run into external material around the remnant, presumably gas expelled from the star during a pre-explosion event. The existence of this new class of rapid supernovae not only expands our knowledge of how supernova look and behave, it also illustrates the serendipitous power of astronomical survey missions.

"A Fast-Evolving, Luminous Transient Discovered by K2/Kepler," A. Rest, P. M. Garnavich, D. Khatami, D. Kasen, B. E. Tucker, E. J. Shaya, R. P., Olling, R. Mushotzky, A. Zenteno, S. Margheim, G. Strampelli, D. James, R. C. Smith, F. Forster, V. A. Villar, Nature, 5151, 75, 2018.