Elizaveta Sazonova
RMS asymmetry: a robust metric of galaxy shapes in images with varied depth and resolution
Sazonova, Elizaveta; Morgan, Cameron R.; Balogh, Michael; Alatalo, Katherine; Benavides, Jose A.; Bluck, Asa; Brough, Sarah; Busa, Innocenza; Demarco, Ricardo; Donevski, Darko; Figueira, Miguel; Martin, Garreth; Mullaney, James R.; Rodriguez-Gomez, Vicente; Román, Javier; Rowlands, Kate
Authors
Cameron R. Morgan
Michael Balogh
Katherine Alatalo
Jose A. Benavides
Asa Bluck
Sarah Brough
Innocenza Busa
Ricardo Demarco
Darko Donevski
Miguel Figueira
Dr GARRETH MARTIN Garreth.Martin@nottingham.ac.uk
RESEARCH FELLOW
James R. Mullaney
Vicente Rodriguez-Gomez
Javier Román
Kate Rowlands
Abstract
Structural disturbances, such as galaxy mergers or instabilities, are key candidates for driving galaxy evolution, so it is important to detect and quantify galaxies hosting these disturbances spanning a range of masses, environments, and cosmic times. Traditionally, this is done by quantifying the asymmetry of a galaxy as part of the concentration-asymmetry-smoothness system, ACAS, and selecting galaxies above a certain threshold as merger candidates. However, in this work, we show that ACAS, is extremely dependent on imaging properties– both resolution and depth– and thus defining a single ACAS threshold is impossible. We analyze an alternative root-mean-squared asymmetry, ARMS, and show that it is independent of noise down to the average SNR per pixel of 1. However, both metrics depend on the resolution. We argue that asymmetry is, by design, always a scale-dependent measurement, and it is essential to define an asymmetry at a given physical resolution, where the limit should be defined by the size of the smallest features one wishes to detect. We measure asymmetry of a set of z ≈ 0.1 galaxies observed with HST, HSC, and SDSS, and show that after matching the resolution of all images to 200 pc, we are able to obtain consistent ARMS,200pc measurements with all three instruments despite the vast differences in the original resolution or depth. We recommend that future studies use ARMS,xpc measurement when evaluating asymmetry, where x is defined by the physical size of the features of interest, and is kept consistent across the dataset, especially when the redshift or image properties of galaxies in the dataset vary.
Citation
Sazonova, E., Morgan, C. R., Balogh, M., Alatalo, K., Benavides, J. A., Bluck, A., Brough, S., Busa, I., Demarco, R., Donevski, D., Figueira, M., Martin, G., Mullaney, J. R., Rodriguez-Gomez, V., Román, J., & Rowlands, K. (in press). RMS asymmetry: a robust metric of galaxy shapes in images with varied depth and resolution. Open Journal of Astrophysics, 7, https://doi.org/10.33232/001c.123524
Journal Article Type | Article |
---|---|
Acceptance Date | Sep 12, 2024 |
Online Publication Date | Sep 12, 2024 |
Deposit Date | Nov 4, 2024 |
Journal | Open Journal of Astrophysics |
Electronic ISSN | 2565-6120 |
Peer Reviewed | Peer Reviewed |
Volume | 7 |
DOI | https://doi.org/10.33232/001c.123524 |
Public URL | https://nottingham-repository.worktribe.com/output/39979542 |
Publisher URL | https://astro.theoj.org/article/123524 |
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