A deep learning approach to test the small-scale galaxy morphology and its relationship with star formation activity in hydrodynamical simulations

A deep learning approach to test the small-scale galaxy morphology and its relationship with star formation activity in hydrodynamical simulations

Hydrodynamical simulations of galaxy formation and evolution attempt to fully model the physics that shapes galaxies. The agreement between the morphology of simulated and real galaxies, and the way the morphological types are distributed across galaxy scaling relations are important probes of our k...

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Main Authors: Zanisi, Lorenzo (Author), Huertas-Company, Marc (Author), Lanusse, François (Author), Bottrell, Connor (Author), Pillepich, Annalisa (Author), Nelson, Dylan (Author), Rodriguez-Gomez, Vicente (Author), Shankar, Francesco (Author), Hernquist, Lars (Author), Dekel, Avishai (Author), Margalef-Bentabol, Berta (Author), Vogelsberger, Mark (Author), Primack, Joel (Author)
Format: Article
Language:English
Published: Oxford University Press (OUP), 2022-05-16T17:37:40Z.
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