Spectro-imaging forward model of red and blue galaxies

For the next generation of spectroscopic galaxy surveys, it is important to forecast their performances and to accurately interpret their large data sets. For this purpose, it is necessary to consistently simulate different populations of galaxies, in particular Emission Line Galaxies (ELGs), less u...

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Veröffentlicht in:	Journal of cosmology and astroparticle physics 2020-06, Vol.2020 (6), p.50-50, Article 050
Hauptverfasser:	Fagioli, Martina, Tortorelli, Luca, Herbel, Jörg, Zürcher, Dominik, Refregier, Alexandre, Amara, Adam
Format:	Artikel
Sprache:	eng
Schlagworte:	Accuracy Astronomical models Computer simulation Cosmology Digital imaging Galactic evolution Principal components analysis Properties (attributes) Sky surveys (astronomy) Spectroscopy Star & galaxy formation Stars & galaxies Statistical methods Stellar age
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container_title	Journal of cosmology and astroparticle physics
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creator	Fagioli, Martina Tortorelli, Luca Herbel, Jörg Zürcher, Dominik Refregier, Alexandre Amara, Adam
description	For the next generation of spectroscopic galaxy surveys, it is important to forecast their performances and to accurately interpret their large data sets. For this purpose, it is necessary to consistently simulate different populations of galaxies, in particular Emission Line Galaxies (ELGs), less used in the past for cosmological purposes. In this work, we further the forward modeling approach presented in Fagioli et al. 2018, by extending the spectra simulator USPEC to model galaxies of different kinds with improved parameters from Tortorelli et al. 2020. Furthermore, we improve the modeling of the selection function by using the image simulator UFIG. We apply this to the Sloan Digital Sky Survey (SDSS), and simulate ∼157,000 multi-band images. We pre-process and analyse them to apply cuts for target selection, and finally simulate SDSS/BOSS DR14 galaxy spectra. We compute photometric, astrometric and spectroscopic properties for red and blue, real and simulated galaxies, finding very good agreement. We compare the statistical properties of the samples by decomposing them with Principal Component Analysis (PCA). We find very good agreement for red galaxies and a good, but less pronounced one, for blue galaxies, as expected given the known difficulty of simulating those. Finally, we derive stellar population properties, mass-to-light ratios, ages and metallicities, for all samples, finding again very good agreement. This shows how this method can be used not only to forecast cosmology surveys, but it is also able to provide insights into studies of galaxy formation and evolution.
doi_str_mv	10.1088/1475-7516/2020/06/050
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subjects	Accuracy Astronomical models Computer simulation Cosmology Digital imaging Galactic evolution Principal components analysis Properties (attributes) Sky surveys (astronomy) Spectroscopy Star & galaxy formation Stars & galaxies Statistical methods Stellar age
title	Spectro-imaging forward model of red and blue galaxies
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