Hydrodynamical modeling of the light curves of core collapse supernovae with HYPERION. I. The mass range 13-25 Msun, the metallicities -3<=[Fe/H]<=0 and the case of SN1999em

Abstract

We present the last version of Hyperion (HYdrodynamic Ppm Explosion with Radiation diffusION), a hydrodynamic code designed to calculate the explosive nucleosynthesis, remnant mass and light curve associated to the explosion of a massive star. By means of this code we compute the explosion of a subset of red supergiant models, taken from the database published by lc18, for various explosion energies in the range 0.20-2.00~1051~erg. The main outcomes of these simulations, i.e., remnant mass, 56Ni synthesized, luminosity and length of the plateau of the bolometric light curve, are analyzed as a function of the initial parameters of the star (mass and metallicity) and of the explosion energy. As a first application of Hyperion we estimated the mass and the metallicity of the progenitor star of SN 1999em, a well studied SN IIP, by means of the light curve fitting. In particular, if the adopted distance to the host galaxy NGC 1637 is 7.83~Mpc, the properties of the light curve point toward a progenitor with an initial mass of 13~M and a metallicity [Fe/H]=-1. If, on the contrary, the adopted distance modulus is 11.7~Mpc, all the models with initial mass 13≤ M/M≤ 15 and metallicities -1≤ [Fe/H] ≤ 0 are compatible with the progenitor of SN 1999em.