H-ATLAS/GAMA: Quantifying the morphological evolution of the galaxy population using cosmic calorimetry

Stephen Eales; Andrew Fullard; Matthew Allen; M. W L Smith; Ivan Baldry; Nathan Bourne; C. J R Clark; Simon Driver; Loretta Dunne; Simon Dye; Alister W. Graham; Edo Ibar; Andrew Hopkins; Rob Ivison; Lee S. Kelvin; Steve Maddox; Claudia Maraston; Aaron S G Robotham; Dan Smith; Edward N. Taylor; Elisabetta Valiante; Paul Van Der Werf; Maarten Baes; Sarah Brough; David Clements; Asantha Cooray; Haley Gomez; Jon Loveday; Steven Phillipps; Douglas Scott; Steve Serjeant

doi:10.1093/mnras/stv1300

H-ATLAS/GAMA: Quantifying the morphological evolution of the galaxy population using cosmic calorimetry

Stephen Eales^*, Andrew Fullard, Matthew Allen, M. W L Smith, Ivan Baldry, Nathan Bourne, C. J R Clark, Simon Driver, Loretta Dunne, Simon Dye, Alister W. Graham, Edo Ibar, Andrew Hopkins, Rob Ivison, Lee S. Kelvin, Steve Maddox, Claudia Maraston, Aaron S G Robotham, Dan Smith, Edward N. TaylorElisabetta Valiante, Paul Van Der Werf, Maarten Baes, Sarah Brough, David Clements, Asantha Cooray, Haley Gomez, Jon Loveday, Steven Phillipps, Douglas Scott, Steve Serjeant

^*Corresponding author for this work

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Abstract

Using results from the Herschel Astrophysical Terrahertz Large-Area Survey (H-ATLAS) and the Galaxy and Mass Assembly (GAMA) project, we show that, for galaxy masses above ≃ 10<sup>8</sup>M<sup>⊙</sup>, 51 per cent of the stellar mass-density in the local Universe is in earlytype galaxies (ETGs; Sérsic n > 2.5) while 89 per cent of the rate of production of stellar mass-density is occurring in late-type galaxies (LTGs; Sérsic n < 2.5). From this zeroredshift benchmark, we have used a calorimetric technique to quantify the importance of the morphological transformation of galaxies over the history of the Universe. The extragalactic background radiation contains all the energy generated by nuclear fusion in stars since the big bang. By resolving this background radiation into individual galaxies using the deepest farinfrared survey with the Herschel Space Observatory and a deep near-infrared/optical survey with the Hubble Space Telescope (HST), and using measurements of the Sérsic index of these galaxies derived from the HST images, we estimate that ≃ 83 per cent of the stellarmass-density formed over the history of the Universe occurred in LTGs. The difference between this value and the fraction of the stellar mass-density that is in LTGs today implies there must have been a major transformation of LTGs into ETGs after the formation of most of the stars.

Original language	English
Pages (from-to)	3489-3507
Number of pages	19
Journal	Monthly Notices of the Royal Astronomical Society
Volume	452
Issue number	4
DOIs	https://doi.org/10.1093/mnras/stv1300
Publication status	Published - 16 Jul 2015

Bibliographical note

Date of Acceptance: 09/06/2015

Keywords

Galaxies: bulges
Galaxies: evolution
Galaxies: star formation

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10.1093/mnras/stv1300

Full-text PDF (accepted author manuscript)
This is a pre-copyedited, author-produced PDF of an article accepted for publication in Monthly Notices of the Royal Astronomical Society following peer review. The version of record Eales, S. et al. H-ATLAS/GAMA: quantifying the morphological evolution of the galaxy population using cosmic calorimetry MNRAS (October 01, 2015) Vol. 452 3489-3507 doi:10.1093/mnras/stv1300 First published online August 20, 2015 is available online at: dx.doi.org/10.1093/mnras/stv1300
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Eales, S., Fullard, A., Allen, M., Smith, M. W. L., Baldry, I., Bourne, N., Clark, C. J. R., Driver, S., Dunne, L., Dye, S., Graham, A. W., Ibar, E., Hopkins, A., Ivison, R., Kelvin, L. S., Maddox, S., Maraston, C., Robotham, A. S. G., Smith, D., ... Serjeant, S. (2015). H-ATLAS/GAMA: Quantifying the morphological evolution of the galaxy population using cosmic calorimetry. Monthly Notices of the Royal Astronomical Society, 452(4), 3489-3507. https://doi.org/10.1093/mnras/stv1300

@article{cfb3a5703c44487d9a62edbf7382f5d6,

title = "H-ATLAS/GAMA: Quantifying the morphological evolution of the galaxy population using cosmic calorimetry",

abstract = "Using results from the Herschel Astrophysical Terrahertz Large-Area Survey (H-ATLAS) and the Galaxy and Mass Assembly (GAMA) project, we show that, for galaxy masses above ≃ 108M⊙, 51 per cent of the stellar mass-density in the local Universe is in earlytype galaxies (ETGs; S{\'e}rsic n > 2.5) while 89 per cent of the rate of production of stellar mass-density is occurring in late-type galaxies (LTGs; S{\'e}rsic n < 2.5). From this zeroredshift benchmark, we have used a calorimetric technique to quantify the importance of the morphological transformation of galaxies over the history of the Universe. The extragalactic background radiation contains all the energy generated by nuclear fusion in stars since the big bang. By resolving this background radiation into individual galaxies using the deepest farinfrared survey with the Herschel Space Observatory and a deep near-infrared/optical survey with the Hubble Space Telescope (HST), and using measurements of the S{\'e}rsic index of these galaxies derived from the HST images, we estimate that ≃ 83 per cent of the stellarmass-density formed over the history of the Universe occurred in LTGs. The difference between this value and the fraction of the stellar mass-density that is in LTGs today implies there must have been a major transformation of LTGs into ETGs after the formation of most of the stars.",

keywords = "Galaxies: bulges, Galaxies: evolution, Galaxies: star formation",

author = "Stephen Eales and Andrew Fullard and Matthew Allen and Smith, \{M. W L\} and Ivan Baldry and Nathan Bourne and Clark, \{C. J R\} and Simon Driver and Loretta Dunne and Simon Dye and Graham, \{Alister W.\} and Edo Ibar and Andrew Hopkins and Rob Ivison and Kelvin, \{Lee S.\} and Steve Maddox and Claudia Maraston and Robotham, \{Aaron S G\} and Dan Smith and Taylor, \{Edward N.\} and Elisabetta Valiante and \{Van Der Werf\}, Paul and Maarten Baes and Sarah Brough and David Clements and Asantha Cooray and Haley Gomez and Jon Loveday and Steven Phillipps and Douglas Scott and Steve Serjeant",

note = "Date of Acceptance: 09/06/2015",

year = "2015",

month = jul,

day = "16",

doi = "10.1093/mnras/stv1300",

language = "English",

volume = "452",

pages = "3489--3507",

journal = "Monthly Notices of the Royal Astronomical Society",

issn = "0035-8711",

publisher = "Oxford University Press",

number = "4",

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Eales, S, Fullard, A, Allen, M, Smith, MWL, Baldry, I, Bourne, N, Clark, CJR, Driver, S, Dunne, L, Dye, S, Graham, AW, Ibar, E, Hopkins, A, Ivison, R, Kelvin, LS, Maddox, S, Maraston, C, Robotham, ASG, Smith, D, Taylor, EN, Valiante, E, Van Der Werf, P, Baes, M, Brough, S, Clements, D, Cooray, A, Gomez, H, Loveday, J, Phillipps, S, Scott, D & Serjeant, S 2015, 'H-ATLAS/GAMA: Quantifying the morphological evolution of the galaxy population using cosmic calorimetry', Monthly Notices of the Royal Astronomical Society, vol. 452, no. 4, pp. 3489-3507. https://doi.org/10.1093/mnras/stv1300

TY - JOUR

T1 - H-ATLAS/GAMA

T2 - Quantifying the morphological evolution of the galaxy population using cosmic calorimetry

AU - Eales, Stephen

AU - Fullard, Andrew

AU - Allen, Matthew

AU - Smith, M. W L

AU - Baldry, Ivan

AU - Bourne, Nathan

AU - Clark, C. J R

AU - Driver, Simon

AU - Dunne, Loretta

AU - Dye, Simon

AU - Graham, Alister W.

AU - Ibar, Edo

AU - Hopkins, Andrew

AU - Ivison, Rob

AU - Kelvin, Lee S.

AU - Maddox, Steve

AU - Maraston, Claudia

AU - Robotham, Aaron S G

AU - Smith, Dan

AU - Taylor, Edward N.

AU - Valiante, Elisabetta

AU - Van Der Werf, Paul

AU - Baes, Maarten

AU - Brough, Sarah

AU - Clements, David

AU - Cooray, Asantha

AU - Gomez, Haley

AU - Loveday, Jon

AU - Phillipps, Steven

AU - Scott, Douglas

AU - Serjeant, Steve

N1 - Date of Acceptance: 09/06/2015

PY - 2015/7/16

Y1 - 2015/7/16

N2 - Using results from the Herschel Astrophysical Terrahertz Large-Area Survey (H-ATLAS) and the Galaxy and Mass Assembly (GAMA) project, we show that, for galaxy masses above ≃ 108M⊙, 51 per cent of the stellar mass-density in the local Universe is in earlytype galaxies (ETGs; Sérsic n > 2.5) while 89 per cent of the rate of production of stellar mass-density is occurring in late-type galaxies (LTGs; Sérsic n < 2.5). From this zeroredshift benchmark, we have used a calorimetric technique to quantify the importance of the morphological transformation of galaxies over the history of the Universe. The extragalactic background radiation contains all the energy generated by nuclear fusion in stars since the big bang. By resolving this background radiation into individual galaxies using the deepest farinfrared survey with the Herschel Space Observatory and a deep near-infrared/optical survey with the Hubble Space Telescope (HST), and using measurements of the Sérsic index of these galaxies derived from the HST images, we estimate that ≃ 83 per cent of the stellarmass-density formed over the history of the Universe occurred in LTGs. The difference between this value and the fraction of the stellar mass-density that is in LTGs today implies there must have been a major transformation of LTGs into ETGs after the formation of most of the stars.

AB - Using results from the Herschel Astrophysical Terrahertz Large-Area Survey (H-ATLAS) and the Galaxy and Mass Assembly (GAMA) project, we show that, for galaxy masses above ≃ 108M⊙, 51 per cent of the stellar mass-density in the local Universe is in earlytype galaxies (ETGs; Sérsic n > 2.5) while 89 per cent of the rate of production of stellar mass-density is occurring in late-type galaxies (LTGs; Sérsic n < 2.5). From this zeroredshift benchmark, we have used a calorimetric technique to quantify the importance of the morphological transformation of galaxies over the history of the Universe. The extragalactic background radiation contains all the energy generated by nuclear fusion in stars since the big bang. By resolving this background radiation into individual galaxies using the deepest farinfrared survey with the Herschel Space Observatory and a deep near-infrared/optical survey with the Hubble Space Telescope (HST), and using measurements of the Sérsic index of these galaxies derived from the HST images, we estimate that ≃ 83 per cent of the stellarmass-density formed over the history of the Universe occurred in LTGs. The difference between this value and the fraction of the stellar mass-density that is in LTGs today implies there must have been a major transformation of LTGs into ETGs after the formation of most of the stars.

KW - Galaxies: bulges

KW - Galaxies: evolution

KW - Galaxies: star formation

UR - https://www.scopus.com/pages/publications/84940118233

U2 - 10.1093/mnras/stv1300

DO - 10.1093/mnras/stv1300

M3 - Article (Academic Journal)

SN - 0035-8711

VL - 452

SP - 3489

EP - 3507

JO - Monthly Notices of the Royal Astronomical Society

JF - Monthly Notices of the Royal Astronomical Society

IS - 4

ER -

H-ATLAS/GAMA: Quantifying the morphological evolution of the galaxy population using cosmic calorimetry

Abstract

Bibliographical note

Keywords

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Research in planetary formation, astrophysics, and cosmology at Bristol

Research in planetary physics, astrophysics and cosmology at Bristol

Cite this

H-ATLAS/GAMA: Quantifying the morphological evolution of the galaxy population using cosmic calorimetry

Abstract

Bibliographical note

Keywords

Access to Document

Handle.net

Other files and links

Fingerprint

Projects

Research in planetary formation, astrophysics, and cosmology at Bristol

Research in planetary physics, astrophysics and cosmology at Bristol

Cite this