SIMBAD references

We present 3D core-collapse supernova simulations of massive Population III progenitor stars at the transition to the pulsational pair instability regime. We simulate two progenitor models with initial masses of 85 and 100 M_☉ with the LS220, SFHo, and SFHx equations of state. The 85 M_☉ progenitor experiences a pair instability pulse coincident with core collapse, whereas the 100 M_☉ progenitor has already gone through a sequence of four pulses 1500 yr before collapse in which it ejected its H and He envelope. The 85 M_☉ models experience shock revival and then delayed collapse to a black hole (BH) due to ongoing accretion within hundreds of milliseconds. The diagnostic energy of the incipient explosion reaches up to 2.7×10⁵¹ erg in the SFHx model. Due to the high binding energy of the metal core, BH collapse by fallback is eventually unavoidable, but partial mass ejection may be possible. The 100 M_☉ models have not achieved shock revival or undergone BH collapse by the end of the simulation. All models exhibit relatively strong gravitational-wave emission both in the high-frequency g-mode emission band and at low frequencies. The SFHx and SFHo models show clear emission from the standing accretion shock instability. For our models, we estimate maximum detection distances of up to ∼46 kpc with LIGO and ∼850 kpc with Cosmic Explorer.