# Optical integral field spectroscopy of intermediate redshift infrared   bright galaxies

**Authors:** M. Pereira-Santaella, D. Rigopoulou, G. E. Magdis, N. Thatte, A., Alonso-Herrero, F. Clarke, D. Farrah, S. Garc\'ia-Burillo, L. Hogan, S., Morris, M. Rodrigues, J.-S. Huang, M. Tecza

arXiv: 1904.13267 · 2019-05-08

## TL;DR

This study uses optical integral field spectroscopy to analyze the dynamics, star formation, and dust properties of intermediate-redshift U/LIRGs, revealing differences from local counterparts and insights into galaxy evolution.

## Contribution

First detailed optical IFS study of intermediate-z U/LIRGs, highlighting their dynamical states, star formation ratios, and dust temperature differences compared to local U/LIRGs.

## Key findings

- 10-25% may be isolated disks, others are merging
- Similar un-obscured and obscured SFR ratios as local U/LIRGs
- Higher 250μm to IR luminosity ratio indicating lower dust temperature

## Abstract

The extreme infrared (IR) luminosity of local luminous and ultra-luminous IR galaxies (U/LIRGs; 11 < log LIR /Lsun < 12 and log LIR /Lsun > 12, respectively) is mainly powered by star-formation processes triggered by mergers or interactions. While U/LIRGs are rare locally, at z > 1, they become more common, they dominate the star-formation rate (SFR) density, and a fraction of them are found to be normal disk galaxies. Therefore, there must be an evolution of the mechanism triggering these intense starbursts with redshift. To investigate this evolution, we present new optical SWIFT integral field spectroscopic H{\alpha}+[NII] observations of a sample of 9 intermediate-z (0.2 < z < 0.4) U/LIRG systems selected from Herschel 250{\mu}m observations. The main results are the following: (a) the ratios between the velocity dispersion and the rotation curve amplitude indicate that 10-25% (1-2 out of 8) might be compatible with being isolated disks while the remaining objects are interacting/merging systems; (b) the ratio between un-obscured and obscured SFR traced by H{\alpha} and LIR, respectively, is similar in both local and these intermediate-z U/LIRGs; and (c) the ratio between 250{\mu}m and the total IR luminosities of these intermediate-z U/LIRGs is higher than that of local U/LIRGs with the same LIR . This indicates a reduced dust temperature in these intermediate-z U/LIRGs. This, together with their already measured enhanced molecular gas content, suggests that the interstellar medium conditions are different in our sample of intermediate-z galaxies when compared to local U/LIRGs.

## Full text

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## Figures

53 figures with captions in the complete paper: https://tomesphere.com/paper/1904.13267/full.md

## References

82 references — full list in the complete paper: https://tomesphere.com/paper/1904.13267/full.md

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Source: https://tomesphere.com/paper/1904.13267