# SEAGLE--II: Constraints on feedback models in galaxy formation from   massive early type strong lens galaxies

**Authors:** Sampath Mukherjee, Leon V. E. Koopmans, R. Benton Metcalf, Crescenzo, Tortora, Matthieu Schaller, Joop Schaye, Giorgos Vernardos, Fabio Bellagamba

arXiv: 1901.01095 · 2021-03-10

## TL;DR

This study compares various galaxy formation models with observed strong lens galaxies, revealing that models with weaker feedback mechanisms best match the observed mass density slopes.

## Contribution

It provides constraints on feedback models in galaxy formation by analyzing their impact on strong lens galaxy properties in simulations versus observations.

## Key findings

- Models with weak feedback match observed mass density slopes.
- Strong feedback models fail to reproduce the isothermal slopes.
- Weak feedback models align better with SLACS and BELLS data.

## Abstract

We use nine different galaxy formation scenarios in ten cosmological simulation boxes from the EAGLE suite of {\Lambda}CDM hydrodynamical simulations to assess the impact of feedback mechanisms in galaxy formation and compare these to observed strong gravitational lenses. To compare observations with simulations, we create strong lenses with $M_\star$ > $10^{11}$ $M_\odot$ with the appropriate resolution and noise level, and model them with an elliptical power-law mass model to constrain their total mass density slope. We also obtain the mass-size relation of the simulated lens-galaxy sample. We find significant variation in the total mass density slope at the Einstein radius and in the projected stellar mass-size relation, mainly due to different implementations of stellar and AGN feedback. We find that for lens selected galaxies, models with either too weak or too strong stellar and/or AGN feedback fail to explain the distribution of observed mass-density slopes, with the counter-intuitive trend that increasing the feedback steepens the mass density slope around the Einstein radius ($\approx$ 3-10 kpc). Models in which stellar feedback becomes inefficient at high gas densities, or weaker AGN feedback with a higher duty cycle, produce strong lenses with total mass density slopes close to isothermal (i.e. -d log({\rho})/d log(r) $\approx$ 2.0) and slope distributions statistically agreeing with observed strong lens galaxies in SLACS and BELLS. Agreement is only slightly worse with the more heterogeneous SL2S lens galaxy sample. Observations of strong-lens selected galaxies thus appear to favor models with relatively weak feedback in massive galaxies.

## Full text

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## Figures

33 figures with captions in the complete paper: https://tomesphere.com/paper/1901.01095/full.md

## References

116 references — full list in the complete paper: https://tomesphere.com/paper/1901.01095/full.md

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Source: https://tomesphere.com/paper/1901.01095