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Radial velocities and stellar populations for a sample of MATLAS survey dwarfs

Published online by Cambridge University Press:  15 July 2025

Kate Southon*
Affiliation:
School of Physical and Chemical Sciences – Te Kura Matū, University of Canterbury, Christchurch, New Zealand Centre for Astrophysics and Supercomputing, Swinburne University, Hawthorn, VIC, Australia
Jonah S. Gannon
Affiliation:
Centre for Astrophysics and Supercomputing, Swinburne University, Hawthorn, VIC, Australia
Duncan A. Forbes
Affiliation:
Centre for Astrophysics and Supercomputing, Swinburne University, Hawthorn, VIC, Australia
Arsen Levitskiy
Affiliation:
Centre for Astrophysics and Supercomputing, Swinburne University, Hawthorn, VIC, Australia
Maria Luisa Buzzo
Affiliation:
Centre for Astrophysics and Supercomputing, Swinburne University, Hawthorn, VIC, Australia
Aaron J. Romanowsky
Affiliation:
Department of Physics and Astronomy, San José State University, San Jose, CA, USA Department of Astronomy and Astrophysics, University of California Santa Cruz, Santa Cruz, CA, USA
Jean P. Brodie
Affiliation:
Centre for Astrophysics and Supercomputing, Swinburne University, Hawthorn, VIC, Australia Department of Astronomy and Astrophysics, University of California Santa Cruz, Santa Cruz, CA, USA
*
Corresponding author: Kate Southon, Email: kasouthon@gmail.com
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Abstract

Spectroscopic observations are essential for confirming associations, measuring kinematics, and determining stellar populations in dwarf galaxies. Here, we present Keck Cosmic Web Imager spectra for 12 MATLAS survey dwarfs. For 9, we confirm recession velocities consistent with their literature-assumed host galaxies. We propose revisions of the host galaxy associations for MATLAS-631, 1494, and 1938. For MATLAS-1494, our measured redshift reclassifies it from an ultra-diffuse galaxy candidate to a dwarf galaxy that is of smaller physical size and places it in the field. It also appears old and passive, providing a challenge to models that invoke quenching by tidal effects. Additionally, we measure stellar population estimates for 7 of the 12 galaxies, finding a ‘mixed bag’ of old quenched galaxies and those that are currently forming stars. Compared to the literature we find generally younger ages and higher metallicities. This result may help reconcile the observed offset of MATLAS survey dwarf galaxies from the universal stellar mass–metallicity relationship reported by Heesters et al. (2023).

Information

Type
Research Article
Creative Commons
Creative Common License - CCCreative Common License - BY
This is an Open Access article, distributed under the terms of the Creative Commons Attribution licence (https://creativecommons.org/licenses/by/4.0/), which permits unrestricted re-use, distribution and reproduction, provided the original article is properly cited.
Copyright
© The Author(s), 2025. Published by Cambridge University Press on behalf of Astronomical Society of Australia
Figure 0

Figure 1. Processed postage stamps of the MATLAS galaxies analysed in this study. Each stamp is 1 arcmin on each side. In all panels, north is up and east is left. The RGB images are constructed using the g, r and i bands from DECaLS. MATLAS-585, 607, 631, and 2103 are blue and show hints of ongoing star formation.

Figure 1

Table 1. Summary of observations and KCWI set-up.

Figure 2

Figure 2. KCWI rest frame spectra of MATLAS-585, 607, 631, and 646. The observed spectrum is shown in black, with the pPXF fit overlaid in red. Key absorption lines are shown in blue. MATLAS-585, 607, and 631 also show emission lines (e.g. [OII]3727 and [OII]4959,5007).

Figure 3

Figure 3. KCWI rest frame spectra of MATLAS-739, 951, 1494, and 1794. The observed spectrum is shown in black, with the pPXF fit overlaid in red. Key absorption lines are shown in blue.

Figure 4

Figure 4. KCWI rest frame spectra of MATLAS-1938, 1957, 2094, and 2103. The observed spectrum is shown in black, with the pPXF fit overlaid in red. Key absorption lines are shown in blue. MATLAS-2103 reveals weak emission lines (e.g. [OII]3727).

Figure 5

Figure 5. Comparison of the fitted recession velocities ($V_{galaxy}$), newly measured from absorption lines in this work, for the MATLAS target galaxies against the literature velocities ($V_{host}$) of their assumed host galaxies. Here, ‘assumed host galaxy’ refers to the larger galaxy the dwarf is thought to be associated with based on projected proximity, as listed in Poulain et al. (2021). Error bars represent the uncertainties in $V_{galaxy}$. The solid red line corresponds to a perfect agreement between the two velocity estimates, and the dashed red lines represent $\pm$500 km/s from unity. In this work we have revised the host galaxy for MATLAS-1938 and 1494 (here we show their original assumed host with a star symbol). The plot does not show MATLAS-631 which has a recession velocity of $\gt$10 000 km/s compared to the possible host galaxy PGC029321 with V$_{host}$ = 2 816 km/s. Overall we find 10/13 galaxies associated with the host galaxy listed in Poulain et al. (2021).

Figure 6

Table 2. Summary of results.

Figure 7

Figure 6. Ages and metallicities ([M/H]) for MATLAS galaxies. Mass-weighted results presented in this work are shown with a filled black circle, and light-weighted results by an open circle. Results from this work are compared to the distribution of ages and metallicities of MATLAS UDGs and dwarfs from the spectroscopic study of Heesters et al. (2023) (blue cloud) and the photometric study of Buzzo et al. (2024) (orange cloud). Our MATLAS galaxies have similar mass-weighted ages, on average, to the Buzzo et al. studies and are systematically more metal-rich than previous studies.

Figure 8

Figure A1. Cutouts of the 12 MATLAS galaxies studied in this work. They are shown in inverted grayscale, scaled between the 5th and 98th image percentiles to enhance the contrast. The red box outlines the on-source region identified as the source, while the blue box indicates the on-sky region used for background estimation. A 1D spectrum for each galaxy was computed in QFitsView, which performed background subtraction by subtracting the average flux in the on-sky region from the on-source region.

Figure 9

Figure B1. Corner plots of the results of 10 000 bootstrap realisations of the stellar population fitting for MATLAS-585, 607, 631, and 646. In each figure, the diagonal panels show the distributions of ages and metallicities as histograms, while the off diagonal panel shows a contour plot of their correlation. Results are quoted as the 16th, 50th, and 84th quantiles, which are marked with vertical dashed lines in the diagonal panels. The results for MATLAS-646 shown in (d) are mass-weighted, while the results for the other three are light-weighted.

Figure 10

Figure B2. Corner plots of the results of 10 000 bootstrap realisations of the stellar population fitting for MATLAS-1938, 1957, and 2094. In each figure, the diagonal panels show the distributions of ages and metallicities as histograms, while the off-diagonal panel shows a contour plot of their correlation. Results are quoted as the 16th, 50th, and 84th quantiles, which are marked with vertical dashed lines in the diagonal panels. All results are mass-weighted.