24–28 Jun 2024
Swedish Royal Academy of Sciences
Europe/Stockholm timezone

The Inhomogeneous Rise of Metallicity During the Epoch of Reionization

27 Jun 2024, 11:00
15m
Beijer auditorium (Swedish Royal Academy of Sciences)

Beijer auditorium

Swedish Royal Academy of Sciences

Speaker

Joohyun Lee (UT Austin)

Description

When galaxies and stars began to form, they released ionizing radiation into the intergalactic medium which resulted in its reionization over the course of the first billion years. This ionizing radiation was dominated by massive stars. Reionization was inhomogeneous in space and time, reflecting the clustering of galaxies, and the inhomogeneous density field into which their radiation caused ionization fronts to propagate, resulting in different arrival times of those ionization fronts at different locations. The same massive stars that released this ionizing radiation also formed and released heavy elements when they exploded as supernovae, enriching the metal-free primordial gas both inside galaxies and outside them, by driving winds into the surrounding IGM. Just as reionization was inhomogeneous, so must the rise of metallicity during the Epoch of Reionization (EoR) have been. The theory of this inhomogeneous rise of metallicity is, therefore, inseparable from the theory of reionization, and predicting its observable consequences requires us to model both processes, together, self-consistently. As JWST pushes the observational frontier, to observe galaxies and detect absorption lines in the intergalactic medium during and after the epoch of reionization, we must predict and interpret what it sees. Towards this end, we have analyzed the results of the latest state-of-the-art radiation-hydro simulation of fully-coupled galaxy formation and reionization by The Cosmic Dawn (“CoDa”) Project, CoDa III, including its self-consistent tracking of the inhomogeneous rise of metallicity through the end of the EoR and beyond, down to z = 4.6. CoDa III is the first trillion-element radiation-hydro simulation of the EoR, with enough dynamic range to resolve the formation of every star-forming galaxy believed to be responsible for reionization (and, hence, metallicity) in its simulation volume of 94.4 cMpc across. We will present these CoDa III results for the inhomogeneous evolution of metallicity in the universe and its correlation with the inhomogeneity of reionization, itself, and their observable consequences.

Primary author

Joohyun Lee (UT Austin)

Co-authors

Paul Shapiro (The University of Texas at Austin) The Cosmic Dawn Project Team

Presentation materials