A Comparison of Cosmological Parameters Determined from CMB Temperature Power Spectra from the South Pole Telescope and the Planck Satellite
The Planck cosmic microwave background temperature data are best fit with a ΛCDM model that mildly contradicts constraints from other cosmological probes. The South Pole Telescope (SPT) 2540 SPT-SZ survey offers measurements on sub-degree angular scales (multipoles ) with sufficient precision to use...
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| Format: | Article in Journal/Newspaper |
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eScholarship, University of California
2017
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| Online Access: | https://escholarship.org/uc/item/3q88n4zs |
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ftcdlib:oai:escholarship.org:ark:/13030/qt3q88n4zs 2024-01-14T10:10:44+01:00 A Comparison of Cosmological Parameters Determined from CMB Temperature Power Spectra from the South Pole Telescope and the Planck Satellite Aylor, K Hou, Z Knox, L Story, KT Benson, BA Bleem, LE Carlstrom, JE Chang, CL Cho, H-M Chown, R Crawford, TM Crites, AT de Haan, T Dobbs, MA Everett, WB George, EM Halverson, NW Harrington, NL Holder, GP Holzapfel, WL Hrubes, JD Keisler, R Lee, AT Leitch, EM Luong-Van, D Marrone, DP McMahon, JJ Meyer, SS Millea, M Mocanu, LM Mohr, JJ Natoli, T Omori, Y Padin, S Pryke, C Reichardt, CL Ruhl, JE Sayre, JT Schaffer, KK Shirokoff, E Staniszewski, Z Stark, AA Vanderlinde, K Vieira, JD Williamson, R 101 2017-11-20 application/pdf https://escholarship.org/uc/item/3q88n4zs unknown eScholarship, University of California qt3q88n4zs https://escholarship.org/uc/item/3q88n4zs public The Astrophysical Journal, vol 850, iss 1 Particle and High Energy Physics Physical Sciences cosmic background radiation cosmology: observations Astronomical and Space Sciences Atomic Molecular Nuclear Particle and Plasma Physics Physical Chemistry (incl. Structural) Astronomy & Astrophysics Astronomical sciences Space sciences article 2017 ftcdlib 2023-12-18T19:08:24Z The Planck cosmic microwave background temperature data are best fit with a ΛCDM model that mildly contradicts constraints from other cosmological probes. The South Pole Telescope (SPT) 2540 SPT-SZ survey offers measurements on sub-degree angular scales (multipoles ) with sufficient precision to use as an independent check of the Planck data. Here we build on the recent joint analysis of the SPT-SZ and Planck data in Hou et al. by comparing ΛCDM parameter estimates using the temperature power spectrum from both data sets in the SPT-SZ survey region. We also restrict the multipole range used in parameter fitting to focus on modes measured well by both SPT and Planck, thereby greatly reducing sample variance as a driver of parameter differences and creating a stringent test for systematic errors. We find no evidence of systematic errors from these tests. When we expand the maximum multipole of SPT data used, we see low-significance shifts in the angular scale of the sound horizon and the physical baryon and cold dark matter densities, with a resulting trend to higher Hubble constant. When we compare SPT and Planck data on the SPT-SZ sky patch to Planck full-sky data but keep the multipole range restricted, we find differences in the parameters n s and Ase-2τ. We perform further checks, investigating instrumental effects and modeling assumptions, and we find no evidence that the effects investigated are responsible for any of the parameter shifts. Taken together, these tests reveal no evidence for systematic errors in SPT or Planck data in the overlapping sky coverage and multipole range and at most weak evidence for a breakdown of ΛCDM or systematic errors influencing either the Planck data outside the SPT-SZ survey area or the SPT data at ℓ >. Article in Journal/Newspaper South pole University of California: eScholarship Hubble ENVELOPE(158.317,158.317,-80.867,-80.867) South Pole |
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Open Polar |
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University of California: eScholarship |
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ftcdlib |
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unknown |
| topic |
Particle and High Energy Physics Physical Sciences cosmic background radiation cosmology: observations Astronomical and Space Sciences Atomic Molecular Nuclear Particle and Plasma Physics Physical Chemistry (incl. Structural) Astronomy & Astrophysics Astronomical sciences Space sciences |
| spellingShingle |
Particle and High Energy Physics Physical Sciences cosmic background radiation cosmology: observations Astronomical and Space Sciences Atomic Molecular Nuclear Particle and Plasma Physics Physical Chemistry (incl. Structural) Astronomy & Astrophysics Astronomical sciences Space sciences Aylor, K Hou, Z Knox, L Story, KT Benson, BA Bleem, LE Carlstrom, JE Chang, CL Cho, H-M Chown, R Crawford, TM Crites, AT de Haan, T Dobbs, MA Everett, WB George, EM Halverson, NW Harrington, NL Holder, GP Holzapfel, WL Hrubes, JD Keisler, R Lee, AT Leitch, EM Luong-Van, D Marrone, DP McMahon, JJ Meyer, SS Millea, M Mocanu, LM Mohr, JJ Natoli, T Omori, Y Padin, S Pryke, C Reichardt, CL Ruhl, JE Sayre, JT Schaffer, KK Shirokoff, E Staniszewski, Z Stark, AA Vanderlinde, K Vieira, JD Williamson, R A Comparison of Cosmological Parameters Determined from CMB Temperature Power Spectra from the South Pole Telescope and the Planck Satellite |
| topic_facet |
Particle and High Energy Physics Physical Sciences cosmic background radiation cosmology: observations Astronomical and Space Sciences Atomic Molecular Nuclear Particle and Plasma Physics Physical Chemistry (incl. Structural) Astronomy & Astrophysics Astronomical sciences Space sciences |
| description |
The Planck cosmic microwave background temperature data are best fit with a ΛCDM model that mildly contradicts constraints from other cosmological probes. The South Pole Telescope (SPT) 2540 SPT-SZ survey offers measurements on sub-degree angular scales (multipoles ) with sufficient precision to use as an independent check of the Planck data. Here we build on the recent joint analysis of the SPT-SZ and Planck data in Hou et al. by comparing ΛCDM parameter estimates using the temperature power spectrum from both data sets in the SPT-SZ survey region. We also restrict the multipole range used in parameter fitting to focus on modes measured well by both SPT and Planck, thereby greatly reducing sample variance as a driver of parameter differences and creating a stringent test for systematic errors. We find no evidence of systematic errors from these tests. When we expand the maximum multipole of SPT data used, we see low-significance shifts in the angular scale of the sound horizon and the physical baryon and cold dark matter densities, with a resulting trend to higher Hubble constant. When we compare SPT and Planck data on the SPT-SZ sky patch to Planck full-sky data but keep the multipole range restricted, we find differences in the parameters n s and Ase-2τ. We perform further checks, investigating instrumental effects and modeling assumptions, and we find no evidence that the effects investigated are responsible for any of the parameter shifts. Taken together, these tests reveal no evidence for systematic errors in SPT or Planck data in the overlapping sky coverage and multipole range and at most weak evidence for a breakdown of ΛCDM or systematic errors influencing either the Planck data outside the SPT-SZ survey area or the SPT data at ℓ >. |
| format |
Article in Journal/Newspaper |
| author |
Aylor, K Hou, Z Knox, L Story, KT Benson, BA Bleem, LE Carlstrom, JE Chang, CL Cho, H-M Chown, R Crawford, TM Crites, AT de Haan, T Dobbs, MA Everett, WB George, EM Halverson, NW Harrington, NL Holder, GP Holzapfel, WL Hrubes, JD Keisler, R Lee, AT Leitch, EM Luong-Van, D Marrone, DP McMahon, JJ Meyer, SS Millea, M Mocanu, LM Mohr, JJ Natoli, T Omori, Y Padin, S Pryke, C Reichardt, CL Ruhl, JE Sayre, JT Schaffer, KK Shirokoff, E Staniszewski, Z Stark, AA Vanderlinde, K Vieira, JD Williamson, R |
| author_facet |
Aylor, K Hou, Z Knox, L Story, KT Benson, BA Bleem, LE Carlstrom, JE Chang, CL Cho, H-M Chown, R Crawford, TM Crites, AT de Haan, T Dobbs, MA Everett, WB George, EM Halverson, NW Harrington, NL Holder, GP Holzapfel, WL Hrubes, JD Keisler, R Lee, AT Leitch, EM Luong-Van, D Marrone, DP McMahon, JJ Meyer, SS Millea, M Mocanu, LM Mohr, JJ Natoli, T Omori, Y Padin, S Pryke, C Reichardt, CL Ruhl, JE Sayre, JT Schaffer, KK Shirokoff, E Staniszewski, Z Stark, AA Vanderlinde, K Vieira, JD Williamson, R |
| author_sort |
Aylor, K |
| title |
A Comparison of Cosmological Parameters Determined from CMB Temperature Power Spectra from the South Pole Telescope and the Planck Satellite |
| title_short |
A Comparison of Cosmological Parameters Determined from CMB Temperature Power Spectra from the South Pole Telescope and the Planck Satellite |
| title_full |
A Comparison of Cosmological Parameters Determined from CMB Temperature Power Spectra from the South Pole Telescope and the Planck Satellite |
| title_fullStr |
A Comparison of Cosmological Parameters Determined from CMB Temperature Power Spectra from the South Pole Telescope and the Planck Satellite |
| title_full_unstemmed |
A Comparison of Cosmological Parameters Determined from CMB Temperature Power Spectra from the South Pole Telescope and the Planck Satellite |
| title_sort |
comparison of cosmological parameters determined from cmb temperature power spectra from the south pole telescope and the planck satellite |
| publisher |
eScholarship, University of California |
| publishDate |
2017 |
| url |
https://escholarship.org/uc/item/3q88n4zs |
| op_coverage |
101 |
| long_lat |
ENVELOPE(158.317,158.317,-80.867,-80.867) |
| geographic |
Hubble South Pole |
| geographic_facet |
Hubble South Pole |
| genre |
South pole |
| genre_facet |
South pole |
| op_source |
The Astrophysical Journal, vol 850, iss 1 |
| op_relation |
qt3q88n4zs https://escholarship.org/uc/item/3q88n4zs |
| op_rights |
public |
| _version_ |
1788065544487829504 |