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Galaxy Zoo DECaLS: Detailed visual morphology measurements from volunteers and deep learning for 314 000 galaxies

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Published
  • Mike Walmsley
  • Chris Lintott
  • Tobias Géron
  • Sandor Kruk
  • Coleman Krawczyk
  • Kyle W Willett
  • Steven Bamford
  • Lee S Kelvin
  • Lucy Fortson
  • Yarin Gal
  • William Keel
  • Karen L Masters
  • Vihang Mehta
  • Brooke D Simmons
  • Rebecca Smethurst
  • Lewis Smith
  • Elisabeth M Baeten
  • Christine Macmillan
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<mark>Journal publication date</mark>3/12/2021
<mark>Journal</mark>Monthly Notices of the Royal Astronomical Society
Issue number3
Volume509
Number of pages23
Pages (from-to)3966-3988
Publication StatusPublished
Early online date30/09/21
<mark>Original language</mark>English

Abstract

We present Galaxy Zoo DECaLS: detailed visual morphological classifications for Dark Energy Camera Legacy Survey images of galaxies within the SDSS DR8 footprint. Deeper DECaLS images (r = 23.6 versus r = 22.2 from SDSS) reveal spiral arms, weak bars, and tidal features not previously visible in SDSS imaging. To best exploit the greater depth of DECaLS images, volunteers select from a new set of answers designed to improve our sensitivity to mergers and bars. Galaxy Zoo volunteers provide 7.5 million individual classifications over 314 000 galaxies. 140 000 galaxies receive at least 30 classifications, sufficient to accurately measure detailed morphology like bars, and the remainder receive approximately 5. All classifications are used to train an ensemble of Bayesian convolutional neural networks (a state-of-the-art deep learning method) to predict posteriors for the detailed morphology of all 314 000 galaxies. We use active learning to focus our volunteer effort on the galaxies which, if labelled, would be most informative for training our ensemble. When measured against confident volunteer classifications, the trained networks are approximately 99 per cent accurate on every question. Morphology is a fundamental feature of every galaxy; our human and machine classifications are an accurate and detailed resource for understanding how galaxies evolve.