iPTF14hls in the circumstellar medium interaction model: A promising candidate for a pulsational pair-instability supernova

Abstract

iPTF14hls is a luminous Type II supernova (SN) with a bumpy light curve that remains debated for its origin. It maintains roughly a constant effective temperature and luminosity since discovery for about 600 days, followed by a slow decay. On 1000\ days post discovery the light curve transitions to a very steep decline. A spectrum taken during this steep decline phase shows clear signatures of shock interaction with dense circumstellar medium (CSM). Here we explore the possibility of iPTF14hls as an interaction-powered SN. The light curve of iPTF14hls can be fitted with wind-like CSMs. Analytic modeling indicates that iPTF14hls may have undertaken six episodes of mass loss during the last 200yr. Assuming that the 1954 eruption triggered the last mass-loss episode, the stellar-wind velocity is determined to be 40-70kms-1, depending on different models. Mass loss rates are in the range % 0.4-3.3M yr-1. The inferred total mass of ejecta and CSMs (Mej+MCSMs 245M ) supports the idea that iPTF14hls may be a candidate for a (pulsational) pair-instability SN. Discovery and observations of more similar stellar explosions will help understand these peculiar SNe.