New analysis of the SN 1987A neutrinos with a flexible spectral shape

Abstract

We analyze the neutrino events from the supernova (SN) 1987A detected by the Kamiokande II (KII) and Irvine-Michigan-Brookhaven (IMB) experiments. For the time-integrated flux we assume a quasi-thermal spectrum of the form (E/E0)α e-(α+1)E/E0 where α plays the role of a spectral index. This simple representation not only allows one to fit the total energy E tot emitted in e and the average energy <E_e>, but also accommodates a wide range of shapes, notably anti-pinched spectra that are broader than a thermal distribution. We find that the pile-up of low-energy events near threshold in KII forces the best-fit value for α to the lowest value of any assumed prior range. This applies to the KII events alone as well as to a common analysis of the two data sets. The preference of the data for an ``unphysical'' spectral shape implies that one can extract meaningful values for <E_e> and E tot only if one fixes a prior value for α. The tension between the KII and IMB data sets and theoretical expectations for <E_e> is not resolved by an anti-pinched spectrum.

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