# Mergers, Starbursts, and Quenching in the Simba Simulation

**Authors:** Francisco Rodr\'iguez Montero, Romeel Dav\'e, Vivienne Wild, Daniel, Angl\'es-Alc\'azar, Desika Narayanan

arXiv: 1907.12680 · 2019-09-16

## TL;DR

This study uses the Simba simulation to explore how major galaxy mergers relate to starbursts and quenching, finding mergers boost star formation but are not the main cause of galaxy quenching.

## Contribution

It demonstrates that major mergers induce starbursts but are not directly responsible for galaxy quenching, highlighting the role of black hole feedback in the quenching process.

## Key findings

- Mergers increase SFR by 2-3 times but account for less than 1% of cosmic star formation.
- Merger rate increases rapidly with redshift, but quenching rate increases slowly, indicating other factors dominate quenching.
- Simba predicts early galaxy quenching at z≥3 and identifies bimodal quenching timescales linked to black hole feedback.

## Abstract

We use the Simba cosmological galaxy formation simulation to investigate the relationship between major mergers ($\leq$ 4:1), starbursts, and galaxy quenching. Mergers are identified via sudden jumps in stellar mass $M_*$ well above that expected from in situ star formation, while quenching is defined as going from specific star formation rate sSFR$>t_{H}^{-1}$ to sSFR$<0.2t_{H}^{-1}$, where $t_{H}$ is the Hubble time. At $z\approx 0-3$, mergers show $\sim\times 2-3$ higher SFR than a mass-matched sample of star-forming galaxies, but globally represent $\leq 1\%$ of the cosmic SF budget. At low masses, the increase in SFR in mergers is mostly attributed to an increase in the $H_2$ content, but for $M_*\geq 10^{10.5} M_{\odot}$ mergers also show an elevated star formation efficiency suggesting denser gas within merging galaxies. The merger rate for star-forming galaxies shows a rapid increase with redshift $\propto (1+z)^{3.5}$, but the quenching rate evolves much more slowly, $\propto (1+z)^{0.9}$; there are insufficient mergers to explain the quenching rate at $z\leq 1.5$. Simba first quenches galaxies at $z\geq 3$, with a number density in good agreement with observations. The quenching timescales $\tau_q$ are strongly bimodal, with `slow' quenchings ($\tau_q \sim 0.1t_{H}$) dominating overall, but `fast' quenchings ($\tau_q\sim 0.01 t_H$) dominating in $M_*\sim 10^{10}-10^{10.5}M_{\odot}$ galaxies, likely induced by Simba's jet-mode black hole feedback. The delay time distribution between mergers and quenching events suggests no physical connection to either fast or slow quenching. Hence, Simba predicts that major mergers induce starbursts, but are unrelated to quenching in either fast or slow mode.

## Full text

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## Figures

13 figures with captions in the complete paper: https://tomesphere.com/paper/1907.12680/full.md

## References

114 references — full list in the complete paper: https://tomesphere.com/paper/1907.12680/full.md

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Source: https://tomesphere.com/paper/1907.12680