# ALMA Deep Field in SSA22: Blindly Detected CO Emitters and [CII] Emitter   Candidates

**Authors:** N. H. Hayatsu, Y. Matsuda, H. Umehata, N. Yoshida, I. Smail, A. M., Swinbank, R. Ivison, K. Kohno, Y. Tamura, M. Kubo, D. Iono, B. Hatsukade, K., Nakanishi, R. Kawabe, T. Nagao, A. K. Inoue, T. T. Takeuchi, M. Lee, Y. Ao,, S. Fujimoto, T. Izumi, Y. Yamaguchi, S. Ikarashi, and T. Yamada

arXiv: 1702.07512 · 2017-05-08

## TL;DR

This study uses ALMA to detect and analyze millimeter line emitters in the SSA22 field, identifying high-redshift [CII] candidates and providing insights into early universe star formation.

## Contribution

First detection of multiple millimeter line emitters in SSA22, including high-redshift [CII] candidates, with implications for star formation history at z~6.

## Key findings

- Detected four line emitters with >6 sigma significance.
- Identified two likely high-redshift [CII] emitters at z=6.0 and 6.5.
- Estimated star formation rates of 10-20 solar masses per year.

## Abstract

We report the identification of four millimeter line emitting galaxies with the Atacama Large Milli/submillimeter Array (ALMA) in SSA22 Field (ADF22). We analyze the ALMA 1.1 mm survey data, with an effective survey area of 5 arcmin$^2$, a frequency range of 253.1--256.8 and 269.1--272.8 GHz, angular resolution of 0".7 and RMS noise of 0.8 mJy beam$^{-1}$ at 36 km s$^{-1}$ velocity resolution. We detect four line emitter candidates with significance levels above $6 \sigma$. We identify one of the four sources as a CO(9-8) emitter at $z = 3.1$ in a member of the proto-cluster known in this field. Another line emitter with an optical counterpart is likely a CO(4-3) emitter at $z = 0.7$. The other two sources without any millimeter continuum or optical/near-infrared counterpart are likely to be [CII] emitter candidates at $z = 6.0$ and $6.5$. The equivalent widths of the [CII] candidates are consistent with those of confirmed high-redshift [CII] emitters and candidates, and are a factor of 10 times larger than that of the CO(9-8) emitter detected in this search. The [CII] luminosity of the candidates are $4-7 \times 10^8~\rm L_\odot$. The star formation rates (SFRs) of these sources are estimated to be $10-20~\rm M_{\odot}~yr^{-1}$ if we adopt an empirical [CII] luminosity - SFR relation. One of them has a relatively low-S/N ratio, but shows features characteristic of emission lines. Assuming that at least one of the two candidates is a [CII] emitter, we derive a lower limit of [CII]-based star formation rate density (SFRD) at $z~\sim~6$. The resulting value of $> 10^{-2}$ $\rm M_\odot yr^{-1} Mpc^{-3}$ is consistent with the dust-uncorrected UV-based SFRD. Future millimeter/submillimeter surveys can be used to detect a number of high redshift line emitters, with which to study the star formation history in the early Universe.

## Full text

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## Figures

17 figures with captions in the complete paper: https://tomesphere.com/paper/1702.07512/full.md

## References

112 references — full list in the complete paper: https://tomesphere.com/paper/1702.07512/full.md

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Source: https://tomesphere.com/paper/1702.07512