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A Deep Learning Approach for Characterizing Major Galaxy Mergers

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arxiv 2102.05182 v1 pith:H5QKY6LW submitted 2021-02-09 astro-ph.GA cs.LG

A Deep Learning Approach for Characterizing Major Galaxy Mergers

classification astro-ph.GA cs.LG
keywords firstgalaxymergermodeldemonstratedynamicalestimatesestimation
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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Fine-grained estimation of galaxy merger stages from observations is a key problem useful for validation of our current theoretical understanding of galaxy formation. To this end, we demonstrate a CNN-based regression model that is able to predict, for the first time, using a single image, the merger stage relative to the first perigee passage with a median error of 38.3 million years (Myrs) over a period of 400 Myrs. This model uses no specific dynamical modeling and learns only from simulated merger events. We show that our model provides reasonable estimates on real observations, approximately matching prior estimates provided by detailed dynamical modeling. We provide a preliminary interpretability analysis of our models, and demonstrate first steps toward calibrated uncertainty estimation.

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  1. Galaxy evolution in the post-merger regime. IV -- The long-term effect of mergers on galactic stellar mass growth and distribution

    astro-ph.GA 2025-11 conditional novelty 7.0

    Post-merger galaxies exhibit 10-20% excess central stellar mass compared to controls, with enhancements extending to about 7 kpc or 1 R_e.