Measuring Distances to Low-luminosity Galaxies Using Surface Brightness Fluctuations

We present an in-depth study of surface brightness fluctuations (SBFs) in low-luminosity stellar systems. Using the MIST models, we compute theoretical predictions for absolute SBF magnitudes in the LSST, HST ACS/WFC, and proposed Roman Space Telescope filter systems. We compare our calculations to...

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Veröffentlicht in:	The Astrophysical journal 2021-02, Vol.908 (1), p.24
Hauptverfasser:	Greco, Johnny P., van Dokkum, Pieter, Danieli, Shany, Carlsten, Scott G., Conroy, Charlie
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Sprache:	eng
Schlagworte:	Astronomical models Astrophysics Distance indicators Dwarf galaxies Fluctuations Galaxies Ground-based observation Low surface brightness galaxies Luminosity Metallicity Polls & surveys Space telescopes Stars & galaxies Stellar mass Stellar models Stellar populations Stellar systems Surface brightness
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creator	Greco, Johnny P. van Dokkum, Pieter Danieli, Shany Carlsten, Scott G. Conroy, Charlie
description	We present an in-depth study of surface brightness fluctuations (SBFs) in low-luminosity stellar systems. Using the MIST models, we compute theoretical predictions for absolute SBF magnitudes in the LSST, HST ACS/WFC, and proposed Roman Space Telescope filter systems. We compare our calculations to observed SBF–color relations of systems that span a wide range of age and metallicity. Consistent with previous studies, we find that single-age population models show excellent agreement with observations of low-mass galaxies with 0.5 ≲ g − i ≲ 0.9. For bluer galaxies, the observed relation is better fit by models with composite stellar populations. To study SBF recovery from low-luminosity systems, we perform detailed image simulations in which we inject fully populated model galaxies into deep ground-based images from real observations. Our simulations show that LSST will provide data of sufficient quality and depth to measure SBF magnitudes with precisions of ∼0.2–0.5 mag in ultra-faint and low-mass classical ( M ⋆ ≤ 10 7 M ⊙ ) dwarf galaxies out to ∼4 Mpc and ∼25 Mpc, respectively, within the first few years of its deep-wide-fast survey. Many significant practical challenges and systematic uncertainties remain, including an irreducible “sampling scatter” in the SBFs of ultra-faint dwarfs due to their undersampled stellar mass functions. We nonetheless conclude that SBFs in the new generation of wide-field imaging surveys have the potential to play a critical role in the efficient confirmation and characterization of dwarf galaxies in the nearby universe.
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Our simulations show that LSST will provide data of sufficient quality and depth to measure SBF magnitudes with precisions of ∼0.2–0.5 mag in ultra-faint and low-mass classical ( M ⋆ ≤ 10 7 M ⊙ ) dwarf galaxies out to ∼4 Mpc and ∼25 Mpc, respectively, within the first few years of its deep-wide-fast survey. Many significant practical challenges and systematic uncertainties remain, including an irreducible “sampling scatter” in the SBFs of ultra-faint dwarfs due to their undersampled stellar mass functions. 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Our simulations show that LSST will provide data of sufficient quality and depth to measure SBF magnitudes with precisions of ∼0.2–0.5 mag in ultra-faint and low-mass classical ( M ⋆ ≤ 10 7 M ⊙ ) dwarf galaxies out to ∼4 Mpc and ∼25 Mpc, respectively, within the first few years of its deep-wide-fast survey. Many significant practical challenges and systematic uncertainties remain, including an irreducible “sampling scatter” in the SBFs of ultra-faint dwarfs due to their undersampled stellar mass functions. 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subjects	Astronomical models Astrophysics Distance indicators Dwarf galaxies Fluctuations Galaxies Ground-based observation Low surface brightness galaxies Luminosity Metallicity Polls & surveys Space telescopes Stars & galaxies Stellar mass Stellar models Stellar populations Stellar systems Surface brightness
title	Measuring Distances to Low-luminosity Galaxies Using Surface Brightness Fluctuations
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