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Stripped-envelope supernova light curves argue for central engine activity.

Ósmar RodríguezEhud NakarDan Maoz
Published in: Nature (2024)
The luminosity of stripped-envelope supernovae, a common type of stellar explosion, is believed to be mainly driven by the radioactive decay of the nickel synthesized in the explosion and carried in its ejecta. Additional possible energy sources have been previously suggested 1-5 , in which the two most observationally based results have been from a comparison of the observed time-weighted luminosity with the inferred radioactive power 1 and from a comparison of the light curves with particular theoretical models 3 . However, the former result 1 was not statistically significant, and the latter 3 is highly dependent on the specific models assumed. Here we analyse the energy budget of a sample of 54 well-observed stripped-envelope supernovae of all sub-types and present statistically significant, largely model-independent, observational evidence for a non-radioactive power source in most of them (and possibly in all). We consider various energy sources, or alternatively, plausible systematic errors, that could drive this result, and conclude that the most likely option is the existence of a long-lived central engine, operating over ≈10 3 -10 6  s after the explosion. We infer, from the observations, constraints on the engine properties. If, for example, the central engine is a magnetized neutron star, then the initial magnetic field is ≈10 15  G and the initial rotation period is 1-100 ms, suggesting that stripped-envelope supernovae may constitute the formation events of the objects known as magnetars.
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