# CO, H2O, H2O+ line and dust emission in a z = 3.63 strongly lensed   starburst merger at sub-kiloparsec scales

**Authors:** C. Yang (1), R. Gavazzi (2), A. Beelen (3), P. Cox (2), A. Omont (2),, M. D. Lehnert (2), Y. Gao (4), R. J. Ivison (5, 6), A. M. Swinbank (7), L., Barcos-Mu\~noz (8, 9), R. Neri (10), A. Cooray (11), S. Dye (12), S. Eales, (13), H. Fu (14), E. Gonz\'alez-Alfonso (15), E. Ibar (16), M. J., Micha{\l}owski (17), H. Nayyeri (11), M. Negrello (13), J. Nightingale (7),, I. P\'erez-Fournon (18, 19), D. A. Riechers (20), I. Smail (7), P. van der, Werf (21) ((1) ESO Santiago, (2) IAP, (3) IAS-Orsay, (4) PMO, (5) ESO, Garching, (6) IfA-Edinburgh, (7) CEA-Durham, (8) NRAO, (9) JAO, (10) IRAM,, (11) UC Irvine, (12) UoN Astronomy, (13) Cardiff Astronomy,(14) UoI, Astronomy, (15) Universidad de Alcal\'a, (16) IFA-Universidad de, Valpara\'iso, (17) IAO-AMU, (18) Instituto de Astrof\'i sica de Canarias,, (19) Universidad de La Laguna, (20) Cornell Astronomy, (21) Leiden, Observatory)

arXiv: 1903.00273 · 2019-05-01

## TL;DR

This study uses high-resolution ALMA observations to analyze a strongly lensed, starburst galaxy at z=3.63, revealing detailed structures of dust and molecular gas, and providing insights into a gas-rich galaxy merger in the early universe.

## Contribution

First high-resolution imaging of dust and molecular line emission in a strongly lensed galaxy at z=3.63, revealing detailed merger dynamics and spatial distributions.

## Key findings

- Reconstructed sub-kpc scale dust and gas structures.
- Identified a major merger with two ULIRG components.
- Observed similar line profiles indicating co-spatial gas phases.

## Abstract

Using ALMA, we report high angular-resolution observations of the redshift z=3.63 galaxy, G09v1.97, one of the most luminous strongly lensed galaxies discovered by the H-ATLAS survey. We present 0"2-0"4 resolution images of the rest-frame 188 and 419$\mu$m dust continuum and the CO(6-5), H2O(211-202) and J=2 H2O+ line emission. We also report the detection of H$_2^{18}$O in this source. The dust continuum and molecular gas emission are resolved into a nearly complete ~1"5 diameter Einstein ring plus a weaker image in the center, which is caused by a special dual deflector lensing configuration. The observed line profiles of the CO, H2O and H2O+ lines are strikingly similar. In the source plane, we reconstruct the dust continuum images and the spectral cubes of the line emission at sub-kpc scales. The reconstructed dust emission in the source plane is dominated by a compact disk with an effective radius of 0.7kpc plus an overlapping extended disk with a radius twice as large. While the average magnification for the dust continuum is $\mu$~10-11, the magnification of the line emission varies 5 to 22 across different velocity components. The emission lines have similar spatial and kinematic distributions. The molecular gas and dust content reveal that G09v1.97 is a gas-rich major merger in its pre-coalescence phase. Both of the merging companions are intrinsically ULIRGs with LIR reaching $\gtrsim 4\times10^{12}L_\odot$, and the total LIR of G09v1.97 is $1.4\times10^{13}L_\odot$. The approaching southern galaxy shows no obvious kinematic structure with a semi-major half-light radius a_s=0.4kpc, while the receding galaxy resembles an a_s=1.2kpc rotating disk. The two galaxies are separated by a projected distance of 1.3kpc, bridged by weak line emission that is co-spatially located with the cold-dust-emission peak, suggesting a large amount of cold ISM in the interacting region. (abridged)

## Full text

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## Figures

31 figures with captions in the complete paper: https://tomesphere.com/paper/1903.00273/full.md

## References

174 references — full list in the complete paper: https://tomesphere.com/paper/1903.00273/full.md

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Source: https://tomesphere.com/paper/1903.00273