Formation of Pop II star clusters in the aftermath of a pair instability supernova

Abstract

Pop II stars formed a few hundred million years after the Big Bang were key drivers of cosmic reionization and building blocks of high redshift galaxies. How and when these stars formed is a subject of ongoing research. We conduct cosmological radiation hydrodynamical simulations to investigate the formation of Pop II star clusters in dark matter halos forming at z=10-25 in the aftermath of a pair instability supernova (PISN). Our simulations model the formation of Pop III and Pop II stars in a self-consistent manner along with their radiative, chemical and SN feedback in halos of 5 × 105- 7 × 107~M. We find that a PISN evacuates the gas from halos ≤ 3 × 106~M and thereafter shuts off in situ star formation for at-least 30 Myr. Pop II stellar clusters of 923~M and 6800~M form in halos of 3.5 × 107~M and 7.2 × 107~M, respectively. The mode of star formation is highly episodic and mainly regulated by Pop II SN feedback. The average star formation rates are 10-5-10-4~M/yr and the star formation efficiency is less than 1\%.