Radial Star Formation Histories in 32 Nearby Galaxies

The spatially resolved star formation histories are studied for 32 normal star-forming galaxies drawn from the Spitzer Extended Disk Galaxy Exploration Science survey. At surface brightness sensitivities fainter than 28 mag arcsec−2, the new optical photometry is deep enough to complement archival u...

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Veröffentlicht in:	The Astronomical journal 2020-05, Vol.159 (5), p.195
Hauptverfasser:	Dale, Daniel A., Anderson, Kristin R., Bran, Louis M., Cox, Isaiah S., Drake, Carolyn L., Lee, Nathan J., Pilawa, Jacob D., Alexander Slane, F., Soto, Susana, Jensen, Emily I., Sutter, Jessica S., Turner, Jordan A., Kobulnicky, Henry A.
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Sprache:	eng
Schlagworte:	Astronomy ASTROPHYSICS, COSMOLOGY AND ASTRONOMY BRIGHTNESS Disk galaxies Dwarf galaxies Galactic evolution GALAXIES Galaxy ages Galaxy evolution Galaxy stellar halos Infrared imaging Infrared photometry Optical properties PHOTOMETRY SENSITIVITY Spiral galaxies Spirals Star & galaxy formation STAR EVOLUTION Star formation Stellar age Stellar systems Surface brightness ULTRAVIOLET RADIATION
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creator	Dale, Daniel A. Anderson, Kristin R. Bran, Louis M. Cox, Isaiah S. Drake, Carolyn L. Lee, Nathan J. Pilawa, Jacob D. Alexander Slane, F. Soto, Susana Jensen, Emily I. Sutter, Jessica S. Turner, Jordan A. Kobulnicky, Henry A.
description	The spatially resolved star formation histories are studied for 32 normal star-forming galaxies drawn from the Spitzer Extended Disk Galaxy Exploration Science survey. At surface brightness sensitivities fainter than 28 mag arcsec−2, the new optical photometry is deep enough to complement archival ultraviolet and infrared imaging and to explore the properties of the emission well beyond the traditional optical extents of these nearby galaxies. Fits to the spectral energy distributions using a delayed star formation history model indicate a subtle but interesting average radial trend for the spiral galaxies: the inner stellar systems decrease in age with increasing radius, consistent with inside-out disk formation, but the trend reverses in the outermost regions with the stellar age nearly as old as the innermost stars. These results suggest an old stellar outer disk population formed through radial migration and/or the cumulative history of minor mergers and accretions of satellite dwarf galaxies. The subset of S0 galaxies studied here show the opposite trend compared to what is inferred for spirals: characteristic stellar ages that are increasingly older with radius for the inner portions of the galaxies, and increasingly younger stellar ages for the outer portions. This result suggests that either S0 galaxies are not well modeled by a delayed-τ model, and/or that S0 galaxies have a more complicated formation history than spiral galaxies.
doi_str_mv	10.3847/1538-3881/ab7eb2
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The subset of S0 galaxies studied here show the opposite trend compared to what is inferred for spirals: characteristic stellar ages that are increasingly older with radius for the inner portions of the galaxies, and increasingly younger stellar ages for the outer portions. 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J</addtitle><description>The spatially resolved star formation histories are studied for 32 normal star-forming galaxies drawn from the Spitzer Extended Disk Galaxy Exploration Science survey. At surface brightness sensitivities fainter than 28 mag arcsec−2, the new optical photometry is deep enough to complement archival ultraviolet and infrared imaging and to explore the properties of the emission well beyond the traditional optical extents of these nearby galaxies. Fits to the spectral energy distributions using a delayed star formation history model indicate a subtle but interesting average radial trend for the spiral galaxies: the inner stellar systems decrease in age with increasing radius, consistent with inside-out disk formation, but the trend reverses in the outermost regions with the stellar age nearly as old as the innermost stars. These results suggest an old stellar outer disk population formed through radial migration and/or the cumulative history of minor mergers and accretions of satellite dwarf galaxies. The subset of S0 galaxies studied here show the opposite trend compared to what is inferred for spirals: characteristic stellar ages that are increasingly older with radius for the inner portions of the galaxies, and increasingly younger stellar ages for the outer portions. 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subjects	Astronomy ASTROPHYSICS, COSMOLOGY AND ASTRONOMY BRIGHTNESS Disk galaxies Dwarf galaxies Galactic evolution GALAXIES Galaxy ages Galaxy evolution Galaxy stellar halos Infrared imaging Infrared photometry Optical properties PHOTOMETRY SENSITIVITY Spiral galaxies Spirals Star & galaxy formation STAR EVOLUTION Star formation Stellar age Stellar systems Surface brightness ULTRAVIOLET RADIATION
title	Radial Star Formation Histories in 32 Nearby Galaxies
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