Back to Search Start Over

Quantifying the Poor Purity and Completeness of Morphological Samples Selected by Galaxy Colour

Authors :
Smethurst, Rebecca J.
Masters, Karen L.
Simmons, Brooke D.
Garland, Izzy L.
Géron, Tobias
Häußler, Boris
Kruk, Sandor
Lintott, Chris J.
O'Ryan, David
Walmsley, Mike
Publication Year :
2021

Abstract

The galaxy population is strongly bimodal in both colour and morphology, and the two measures correlate strongly, with most blue galaxies being late-types (spirals) and most early-types, typically ellipticals, being red. This observation has led to the use of colour as a convenient selection criteria to make samples which are then labelled by morphology. Such use of colour as a proxy for morphology results in necessarily impure and incomplete samples. In this paper, we make use of the morphological labels produced by Galaxy Zoo to measure how incomplete and impure such samples are, considering optical (ugriz), NUV and NIR (JHK) bands. The best single colour optical selection is found using a threshold of g-r = 0.742, but this still results in a sample where only 56% of red galaxies are smooth and 56% of smooth galaxies are red. Use of the NUV gives some improvement over purely optical bands, particularly for late-types, but still results in low purity/completeness for early-types. No significant improvement is found by adding NIR bands. With any two bands, including NUV, a sample of early-types with greater than two-thirds purity cannot be constructed. Advances in quantitative galaxy morphologies have made colour-morphology proxy selections largely unnecessary going forward; where such assumptions are still required, we recommend studies carefully consider the implications of sample incompleteness/impurity.<br />Comment: 8 pages, 2 figures, Accepted 2021 December 07. Received 2021 December 06; in original form 2021 August 06

Details

Database :
arXiv
Publication Type :
Report
Accession number :
edsarx.2112.04507
Document Type :
Working Paper
Full Text :
https://doi.org/10.1093/mnras/stab3607