The distribution of star formation in the SAMI Galaxy Survey: the implications for quenching mechanisms and galaxy evolution

The distribution of the star formation across galaxy disks is examined with integral field spectroscopy to determine if the distribution varies according to the so-called 'main sequence' locus of galaxies on the plane of integrated star-formation rate and galaxy mass. Integral field spectr...

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Main Author: Goldstein, Gregory
Format: Text
Language:unknown
Published: Macquarie University 2022
Subjects:
Other education not elsewhere classified
sami
Online Access:https://dx.doi.org/10.25949/19428458.v1
https://figshare.mq.edu.au/articles/thesis/The_distribution_of_star_formation_in_the_SAMI_Galaxy_Survey_the_implications_for_quenching_mechanisms_and_galaxy_evolution/19428458/1
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spelling ftdatacite:10.25949/19428458.v1 2023-05-15T18:12:10+02:00 The distribution of star formation in the SAMI Galaxy Survey: the implications for quenching mechanisms and galaxy evolution Goldstein, Gregory 2022 https://dx.doi.org/10.25949/19428458.v1 https://figshare.mq.edu.au/articles/thesis/The_distribution_of_star_formation_in_the_SAMI_Galaxy_Survey_the_implications_for_quenching_mechanisms_and_galaxy_evolution/19428458/1 unknown Macquarie University https://dx.doi.org/10.25949/19428458 In Copyright http://rightsstatements.org/vocab/InC/1.0/ Other education not elsewhere classified article-journal ScholarlyArticle Thesis Text 2022 ftdatacite https://doi.org/10.25949/19428458.v1 https://doi.org/10.25949/19428458 2022-04-01T18:20:37Z The distribution of the star formation across galaxy disks is examined with integral field spectroscopy to determine if the distribution varies according to the so-called 'main sequence' locus of galaxies on the plane of integrated star-formation rate and galaxy mass. Integral field spectroscopy allows the construction of radial profiles of star formation in the disks of star forming galaxies. The profiles are here used in the testing of various mechanisms that have been proposed for galaxy quenching and evolution. A goal is to determine whether processes local to each galaxy (such as a central process) or global environmental factors such as strangulation are the prime drivers of quenching. A sample of star forming galaxies from the SAMI Galaxy Survey is used, noting that only galaxies with a majority of spaxels in the central area that are star forming are suitable for construction of a radial profile. Galaxies have been classified as main sequence, above-, and below main sequence based on their location in relation to the star formation main sequence ridgeline. The radial profiles of star formation indicate that central suppression of star formation occurs in 16-20 percent of galaxies on, above or below the main sequence. The radial profiles are generally consistent with coherent star formation, whereby whatever the quenching process is that drives reduced SFR, it acts in such a way that SF remains largely coherent across the galaxy body. Coherent star formation favors several proposed quenching mechanisms including strangulation or cosmic web detachment. Central suppression is not a signature of a quenching process, but is consistent with a central process such as the compaction scenario, and cyclic central star formation. This study has been unable to distinguish between quenching from the inside out such as the 'compaction' scenario, and strangulation as a primary quenching mechanism. A weak positive correlation between bulge size and central SF radial profile slope has been detected, however the results do not support a major role of bulges in the initiation of central suppression of star formation. Text sami DataCite Metadata Store (German National Library of Science and Technology)
institution Open Polar
collection DataCite Metadata Store (German National Library of Science and Technology)
op_collection_id ftdatacite
language unknown
topic Other education not elsewhere classified
spellingShingle Other education not elsewhere classified
Goldstein, Gregory
The distribution of star formation in the SAMI Galaxy Survey: the implications for quenching mechanisms and galaxy evolution
topic_facet Other education not elsewhere classified
description The distribution of the star formation across galaxy disks is examined with integral field spectroscopy to determine if the distribution varies according to the so-called 'main sequence' locus of galaxies on the plane of integrated star-formation rate and galaxy mass. Integral field spectroscopy allows the construction of radial profiles of star formation in the disks of star forming galaxies. The profiles are here used in the testing of various mechanisms that have been proposed for galaxy quenching and evolution. A goal is to determine whether processes local to each galaxy (such as a central process) or global environmental factors such as strangulation are the prime drivers of quenching. A sample of star forming galaxies from the SAMI Galaxy Survey is used, noting that only galaxies with a majority of spaxels in the central area that are star forming are suitable for construction of a radial profile. Galaxies have been classified as main sequence, above-, and below main sequence based on their location in relation to the star formation main sequence ridgeline. The radial profiles of star formation indicate that central suppression of star formation occurs in 16-20 percent of galaxies on, above or below the main sequence. The radial profiles are generally consistent with coherent star formation, whereby whatever the quenching process is that drives reduced SFR, it acts in such a way that SF remains largely coherent across the galaxy body. Coherent star formation favors several proposed quenching mechanisms including strangulation or cosmic web detachment. Central suppression is not a signature of a quenching process, but is consistent with a central process such as the compaction scenario, and cyclic central star formation. This study has been unable to distinguish between quenching from the inside out such as the 'compaction' scenario, and strangulation as a primary quenching mechanism. A weak positive correlation between bulge size and central SF radial profile slope has been detected, however the results do not support a major role of bulges in the initiation of central suppression of star formation.
format Text
author Goldstein, Gregory
author_facet Goldstein, Gregory
author_sort Goldstein, Gregory
title The distribution of star formation in the SAMI Galaxy Survey: the implications for quenching mechanisms and galaxy evolution
title_short The distribution of star formation in the SAMI Galaxy Survey: the implications for quenching mechanisms and galaxy evolution
title_full The distribution of star formation in the SAMI Galaxy Survey: the implications for quenching mechanisms and galaxy evolution
title_fullStr The distribution of star formation in the SAMI Galaxy Survey: the implications for quenching mechanisms and galaxy evolution
title_full_unstemmed The distribution of star formation in the SAMI Galaxy Survey: the implications for quenching mechanisms and galaxy evolution
title_sort distribution of star formation in the sami galaxy survey: the implications for quenching mechanisms and galaxy evolution
publisher Macquarie University
publishDate 2022
url https://dx.doi.org/10.25949/19428458.v1
https://figshare.mq.edu.au/articles/thesis/The_distribution_of_star_formation_in_the_SAMI_Galaxy_Survey_the_implications_for_quenching_mechanisms_and_galaxy_evolution/19428458/1
genre sami
genre_facet sami
op_relation https://dx.doi.org/10.25949/19428458
op_rights In Copyright
http://rightsstatements.org/vocab/InC/1.0/
op_doi https://doi.org/10.25949/19428458.v1
https://doi.org/10.25949/19428458
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