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Published May 16, 2022 | Version v1
Poster Open

Unravelling galaxy merger histories with deep learning

  • 1. Kavli IPMU

Description

Mergers between galaxies can be drivers of morphological transformation and various physical phenomena, including star-formation, black-hole accretion, and chemical redistribution. These effects are seen clearly among galaxies that are currently interacting (pairs) -- which can be selected with high purity spectroscopically with correctable completeness. Galaxies in the merger remnant phase (post-mergers) exhibit some of the strongest changes, but are more elusive because identification must rely on the remnant properties alone. Part I of this work combines images and stellar kinematics to identify merger remnants using deep learning (arXiv:2201.03579). There, I showed that kinematics are not the smoking-gun for improving remnant classification purity and that high posterior purity remains a significant challenge for remnant identification in the local Universe. However an alternative approach, explored in this work, that treats all galaxies as merger remnants and re-frames the problem as an image-based deep regression yields exciting results.

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Bottrell_Unravelling-Galaxy-Merger-Histories-with-Deep-Learning.pdf

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Additional details

References

  • Bottrell, Connor et al (2022), MNRAS 511 100 (doi: 10.1093/mnras/stab3717, arXiv:2201.03579)