Rotational Dynamics in Pulsational Pair-instability Supernovae: Implications for Mass Loss and Transient Events

Document Type

Article

Publication Date

9-20-2025

Abstract

Pulsational pair-instability supernovae (PPISNe) are transient events occurring in progenitor stars with He cores of ∼32-65 M⊙, where rapid electron-positron pair production induces pressure loss, collapse, and pulsations driving episodic mass loss. The number, strength, and duration of these pulses can lead to shell collisions that produce shock-powered transients, potentially explaining some of the most luminous events, such as superluminous supernovae, and other rare transients. Rapid progenitor rotation lowers the PPISN mass threshold and influences the dynamics, energetics, and chemical composition of PPISN-driven pulses. In this study, we computed 1D evolutionary models of massive, rotating PPISN progenitor stars with ZAMS masses of 85-140 M⊙ and metallicities of Z⊙ and 0.1 Z⊙. Our analysis reveals strong correlations between PPISN ejected mass and total energy, as well as between ejected mass and peak ejected shell velocity. Additionally, moderate correlations indicate that higher initial PPISN progenitor mass leads to greater mass ejection and energy release, while negative correlations show that rapid rotation appears to reduce mass ejection and kinetic energy of the shells. Subsequent pulses lead to H-poor, C- and O-enriched ejected shells, indicating the effect of rotationally induced chemical mixing, PPISN-driven episodic mass loss with implications for their transients. We model the light curve and synthetic spectra that arise from the collision of two H-poor shells for one of our models using the radiation transport code SuperLite. We find that shock-heated H-poor PPISN shell collisions from rapidly rotating progenitors can lead to moderately luminous H-poor transients that share some similarities with observed superluminous supernova I events.

Publication Source (Journal or Book title)

Astrophysical Journal

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