Testing Homogeneity with the Galaxy Fossil Record

Observationally confirming spatial homogeneity on sufficiently large cosmological scales is of importance to test one of the underpinning assumptions of cosmology, and is also imperative for correctly interpreting dark energy. A challenging aspect of this is that homogeneity must be probed inside ou...

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Detalles Bibliográficos
Autores principales: Hoyle, Ben, Tojeiro, Rita, Jimenez, Raul, Heavens, Alan, Clarkson, Chris, Maartens, Roy
Lenguaje:eng
Publicado: 2012
Materias:
Astrophysics and Astronomy
Acceso en línea:https://dx.doi.org/10.1088/2041-8205/762/1/L9
http://cds.cern.ch/record/1481926
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author Hoyle, Ben
Tojeiro, Rita
Jimenez, Raul
Heavens, Alan
Clarkson, Chris
Maartens, Roy
author_facet Hoyle, Ben
Tojeiro, Rita
Jimenez, Raul
Heavens, Alan
Clarkson, Chris
Maartens, Roy
author_sort Hoyle, Ben
collection CERN
description Observationally confirming spatial homogeneity on sufficiently large cosmological scales is of importance to test one of the underpinning assumptions of cosmology, and is also imperative for correctly interpreting dark energy. A challenging aspect of this is that homogeneity must be probed inside our past lightcone, while observations take place on the lightcone. The history of star formation rates (SFH) in the galaxy fossil record provides a novel way to do this. We calculate the SFH of stacked Luminous Red Galaxy (LRG) spectra obtained from the Sloan Digital Sky Survey. We divide the LRG sample into 12 equal area contiguous sky patches and 10 redshift slices (0.2<z<0.5), which correspond to 120 blocks of volume 0.04Gpc^3. Using the SFH in a time period which samples the history of the Universe between look-back times 11.5 to 13.4 Gyrs as a proxy for homogeneity, we calculate the posterior distribution for the excess large-scale variance due to inhomogeneity, and find that the most likely solution is no extra variance at all. At 95% credibility, there is no evidence of deviations larger than 5.8%.
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institution Organización Europea para la Investigación Nuclear
language eng
publishDate 2012
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spelling cern-14819262021-11-23T03:03:26Zdoi:10.1088/2041-8205/762/1/L9http://cds.cern.ch/record/1481926engHoyle, BenTojeiro, RitaJimenez, RaulHeavens, AlanClarkson, ChrisMaartens, RoyTesting Homogeneity with the Galaxy Fossil RecordAstrophysics and AstronomyObservationally confirming spatial homogeneity on sufficiently large cosmological scales is of importance to test one of the underpinning assumptions of cosmology, and is also imperative for correctly interpreting dark energy. A challenging aspect of this is that homogeneity must be probed inside our past lightcone, while observations take place on the lightcone. The history of star formation rates (SFH) in the galaxy fossil record provides a novel way to do this. We calculate the SFH of stacked Luminous Red Galaxy (LRG) spectra obtained from the Sloan Digital Sky Survey. We divide the LRG sample into 12 equal area contiguous sky patches and 10 redshift slices (0.2<z<0.5), which correspond to 120 blocks of volume 0.04Gpc^3. Using the SFH in a time period which samples the history of the Universe between look-back times 11.5 to 13.4 Gyrs as a proxy for homogeneity, we calculate the posterior distribution for the excess large-scale variance due to inhomogeneity, and find that the most likely solution is no extra variance at all. At 95% credibility, there is no evidence of deviations larger than 5.8%.Observationally confirming spatial homogeneity on sufficiently large cosmological scales is of importance to test one of the underpinning assumptions of cosmology, and is also imperative for correctly interpreting dark energy. A challenging aspect of this is that homogeneity must be probed inside our past lightcone, while observations take place on the lightcone. The star formation history (SFH) in the galaxy fossil record provides a novel way to do this. We calculate the SFH of stacked Luminous Red Galaxy (LRG) spectra obtained from the Sloan Digital Sky Survey. We divide the LRG sample into 12 equal area contiguous sky patches and 10 redshift slices (0.2 < z < 0.5), which correspond to 120 blocks of volume 0.04Gpc3. Using the SFH in a time period which samples the history of the Universe between look-back times 11.5 to 13.4 Gyrs as a proxy for homogeneity, we calculate the posterior distribution for the excess large-scale variance due to inhomogeneity, and find that the most likely solution is no extra variance at all. At 95% credibility, there is no evidence of deviations larger than 5.8%.arXiv:1209.6181oai:cds.cern.ch:14819262012-09-28
spellingShingle Astrophysics and Astronomy
Hoyle, Ben
Tojeiro, Rita
Jimenez, Raul
Heavens, Alan
Clarkson, Chris
Maartens, Roy
Testing Homogeneity with the Galaxy Fossil Record
title Testing Homogeneity with the Galaxy Fossil Record
title_full Testing Homogeneity with the Galaxy Fossil Record
title_fullStr Testing Homogeneity with the Galaxy Fossil Record
title_full_unstemmed Testing Homogeneity with the Galaxy Fossil Record
title_short Testing Homogeneity with the Galaxy Fossil Record
title_sort testing homogeneity with the galaxy fossil record
topic Astrophysics and Astronomy
url https://dx.doi.org/10.1088/2041-8205/762/1/L9
http://cds.cern.ch/record/1481926
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AT heavensalan testinghomogeneitywiththegalaxyfossilrecord
AT clarksonchris testinghomogeneitywiththegalaxyfossilrecord
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