Planck 2013 results. XIX. The integrated Sachs-Wolfe effect

P. A. R. Ade; N. Aghanim; C. Armitage-Caplan; M. Arnaud; M. Ashdown; F. Atrio-Barandela; J. Aumont; C. Baccigalupi; A. J. Banday; R. B. Barreiro; J. G. Bartlett; N. Bartolo; E. Battaner; K. Benabed; A. Benoît; A. Benoit-Lévy; J.-P. Bernard; M. Bersanelli; P. Bielewicz; J. Bobin; J. J. Bock; A. Bonaldi; L. Bonavera; J. R. Bond; J. Borrill; F. R. Bouchet; M. Bridges; M. Bucher; C. Burigana; R. C. Butler; J.-F. Cardoso; A. Catalano; A. Challinor; A. Chamballu; H. C. Chiang; L.-Y Chiang; P. R. Christensen; S. Church; D. L. Clements; S. Colombi; L. P. L. Colombo; F. Couchot; A. Coulais; B. P. Crill; A. Curto; F. Cuttaia; L. Danese; R. D. Davies; R. J. Davis; P. de Bernardis; A. de Rosa; G. de Zotti; J. Delabrouille; J.-M. Delouis; F.-X. Désert; C. Dickinson; J. M. Diego; K. Dolag; H. Dole; S. Donzelli; O. Doré; M. Douspis; X. Dupac; G. Efstathiou; T. A. Enßlin; H. K. Eriksen; J. Fergusson; F. Finelli; O. Forni; P. Fosalba; M. Frailis; E. Franceschi; M. Frommert; S. Galeotta; K. Ganga; R. T. Génova-Santos; M. Giard; G. Giardino; Y. Giraud-Héraud; J. González-Nuevo; K. M. Górski; Serge Gratton; A. Gregorio; A. Gruppuso; F. K. Hansen; D. Hanson; D. Harrison; S. Henrot-Versillé; C. Hernández-Monteagudo; D. Herranz; S. R. Hildebrandt; E. Hivon; S. Ho; M. Hobson; W. A. Holmes; A. Hornstrup; W. Hovest; K. M. Huffenberger; S. Ilić; A. H. Jaffe; T. R. Jaffe; J. Jasche; W. C. Jones; M. Juvela; E. Keihänen; R. Keskitalo; T. S. Kisner; J. Knoche; L. Knox; M. Kunz; H. Kurki-Suonio; Guilaine Lagache; A. Lähteenmäki; J.-M. Lamarre; M. Langer; A. Lasenby; R. J. Laureijs; C. R. Lawrence; J. P. Leahy; R. Leonardi; J. Lesgourgues; M. Liguori; P. B. Lilje; M. Linden-Vørnle; M. López-Caniego; P. M. Lubin; J.F. Macías-Pérez; B. Maffei; D. Maino; N. Mandolesi; A. Mangilli; A. Marcos-Caballero; M. Maris; D. J. Marshall; P. G. Martin; E. Martínez-González; S. Masi; M. Massardi; S. Matarrese; F. Matthai; P. Mazzotta; P. R. Meinhold; A. Melchiorri; L. Mendes; A. Mennella; M. Migliaccio; Subhabrata Mitra; M.-A. Miville-Deschênes; A. Moneti; L. Montier; G. Morgante; D. Mortlock; A. Moss; D. Munshi; P. Naselsky; F. Nati; P. Natoli; C. B. Netterfield; H. U. Nørgaard-Nielsen; F. Noviello; D. Novikov; I. Novikov; S. Osborne; C. A. Oxborrow; F. Paci; L. Pagano; F. Pajot; D. Paoletti; B. Partridge; F. Pasian; G. Patanchon; O. Perdereau; L. Perotto; F. Perrotta; F. Piacentini; M. Piat; E. Pierpaoli; D. Pietrobon; Stéphane Plaszczynski; E. Pointecouteau; G. Polenta; N. Ponthieu; L. Popa; T. Poutanen; G. W. Pratt; G. Prézeau; S. Prunet; J.-L. Puget; J. P. Rachen; B. Racine; R. Rebolo; M. Reinecke; M. Remazeilles; C. Renault; A. Renzi; S. Ricciardi; T. Riller; I. Ristorcelli; G. Rocha; C. Rosset; G. Roudier; M. Rowan-Robinson; J. A. Rubiño-Martín; B. Rusholme; M. Sandri; D. Santos; G. Savini; B. M. Schaefer; F. Schiavon; D. Scott; M. D. Seiffert; E. P. S. Shellard; L. D. Spencer; J.-L. Starck; V. Stolyarov; Radek Stompor; R. Sudiwala; R. Sunyaev; F. Sureau; P. Sutter; D. Sutton; A.-S. Suur-Uski; J.-F. Sygnet; J. A. Tauber; D. Tavagnacco; L. Terenzi; L. Toffolatti; M. Tomasi; M. Tristram; M. Tucci; J. Tuovinen; G. Umana; L. Valenziano; J. Valiviita; B. van Tent; J. Varis; M. Viel; P. Vielva; F. Villa; N. Vittorio; L. A. Wade; B. D. Wandelt; M. White; J.-Q. Xia; D. Yvon; A. Zacchei; A. Zonca

doi:10.1051/0004-6361/201321526

Journal articles

Planck 2013 results. XIX. The integrated Sachs-Wolfe effect

P. A. R. Ade N. Aghanim C. Armitage-Caplan M. Arnaud ¹ M. Ashdown F. Atrio-Barandela J. Aumont C. Baccigalupi A. J. Banday R. B. Barreiro J. G. Bartlett ² N. Bartolo E. Battaner K. Benabed A. Benoît ³ A. Benoit-Lévy J.-P. Bernard M. Bersanelli P. Bielewicz J. Bobin ¹ J. J. Bock A. Bonaldi L. Bonavera J. R. Bond J. Borrill F. R. Bouchet M. Bridges M. Bucher ² C. Burigana R. C. Butler J.-F. Cardoso ² A. Catalano ^{4, 5} A. Challinor A. Chamballu ^{6, 1} H. C. Chiang L.-Y Chiang P. R. Christensen S. Church D. L. Clements S. Colombi L. P. L. Colombo F. Couchot ⁷ A. Coulais ⁵ B. P. Crill A. Curto F. Cuttaia L. Danese R. D. Davies R. J. Davis P. de Bernardis A. de Rosa G. de Zotti J. Delabrouille ² J.-M. Delouis F.-X. Désert C. Dickinson J. M. Diego K. Dolag H. Dole S. Donzelli O. Doré M. Douspis X. Dupac G. Efstathiou T. A. Enßlin H. K. Eriksen J. Fergusson F. Finelli O. Forni P. Fosalba M. Frailis E. Franceschi M. Frommert S. Galeotta K. Ganga ² R. T. Génova-Santos M. Giard G. Giardino Y. Giraud-Héraud ² J. González-Nuevo K. M. Górski Serge Gratton A. Gregorio A. Gruppuso F. K. Hansen D. Hanson D. Harrison S. Henrot-Versillé ⁷ C. Hernández-Monteagudo D. Herranz S. R. Hildebrandt E. Hivon S. Ho M. Hobson W. A. Holmes A. Hornstrup W. Hovest K. M. Huffenberger S. Ilić A. H. Jaffe T. R. Jaffe J. Jasche W. C. Jones M. Juvela E. Keihänen R. Keskitalo T. S. Kisner J. Knoche L. Knox M. Kunz H. Kurki-Suonio Guilaine Lagache A. Lähteenmäki J.-M. Lamarre ⁵ M. Langer ⁸ A. Lasenby R. J. Laureijs C. R. Lawrence J. P. Leahy R. Leonardi J. Lesgourgues M. Liguori P. B. Lilje M. Linden-Vørnle M. López-Caniego P. M. Lubin J.F. Macías-Pérez ⁴ B. Maffei D. Maino N. Mandolesi A. Mangilli A. Marcos-Caballero M. Maris D. J. Marshall ¹ P. G. Martin E. Martínez-González S. Masi M. Massardi S. Matarrese F. Matthai P. Mazzotta P. R. Meinhold A. Melchiorri L. Mendes A. Mennella M. Migliaccio Subhabrata Mitra M.-A. Miville-Deschênes A. Moneti L. Montier G. Morgante D. Mortlock A. Moss D. Munshi P. Naselsky F. Nati P. Natoli C. B. Netterfield H. U. Nørgaard-Nielsen F. Noviello D. Novikov I. Novikov S. Osborne C. A. Oxborrow F. Paci L. Pagano F. Pajot D. Paoletti B. Partridge F. Pasian G. Patanchon ² O. Perdereau ⁷ L. Perotto ⁴ F. Perrotta F. Piacentini M. Piat ² E. Pierpaoli D. Pietrobon Stéphane Plaszczynski ⁷ E. Pointecouteau G. Polenta N. Ponthieu L. Popa T. Poutanen G. W. Pratt ¹ G. Prézeau S. Prunet J.-L. Puget J. P. Rachen B. Racine ² R. Rebolo M. Reinecke M. Remazeilles ² C. Renault ⁴ A. Renzi S. Ricciardi T. Riller I. Ristorcelli G. Rocha C. Rosset ² G. Roudier ^{2, 5} M. Rowan-Robinson J. A. Rubiño-Martín B. Rusholme M. Sandri D. Santos ⁴ G. Savini B. M. Schaefer F. Schiavon D. Scott M. D. Seiffert E. P. S. Shellard L. D. Spencer J.-L. Starck ¹ V. Stolyarov Radek Stompor ² R. Sudiwala R. Sunyaev F. Sureau ¹ P. Sutter D. Sutton A.-S. Suur-Uski J.-F. Sygnet J. A. Tauber D. Tavagnacco L. Terenzi L. Toffolatti M. Tomasi M. Tristram ⁷ M. Tucci ⁷ J. Tuovinen G. Umana L. Valenziano J. Valiviita B. van Tent J. Varis M. Viel P. Vielva F. Villa N. Vittorio L. A. Wade B. D. Wandelt M. White J.-Q. Xia D. Yvon ⁶ A. Zacchei A. Zonca

1 AIM (UMR_7158 / UMR_E_9005 / UM_112) - Astrophysique Interprétation Modélisation

2 APC (UMR_7164) - AstroParticule et Cosmologie

3 HELFA - Hélium : du fondamental aux applications

NEEL - Institut Néel

4 LPSC - Laboratoire de Physique Subatomique et de Cosmologie

5 LERMA - Laboratoire d'Etude du Rayonnement et de la Matière en Astrophysique

6 DPP - Département de Physique des Particules (ex SPP)

7 LAL - Laboratoire de l'Accélérateur Linéaire

8 IAS - Institut d'astrophysique spatiale

Abstract : Based on cosmic microwave background (CMB) maps from the 2013 Planck Mission data release, this paper presents the detection of the integrated Sachs-Wolfe (ISW) effect, that is, the correlation between the CMB and large-scale evolving gravitational potentials. The significance of detection ranges from 2 to 4σ, depending on which method is used. We investigated three separate approaches, which essentially cover all previous studies, and also break new ground. (i) We correlated the CMB with the Planck reconstructed gravitational lensing potential (for the first time). This detection was made using the lensing-induced bispectrum between the low-ℓ and high-ℓ temperature anisotropies; the correlation between lensing and the ISW effect has a significance close to 2.5σ. (ii) We cross-correlated with tracers of large-scale structure, which yielded a significance of about 3σ, based on a combination of radio (NVSS) and optical (SDSS) data. (iii) We used aperture photometry on stacked CMB fields at the locations of known large-scale structures, which yielded and confirms a 4σ signal, over a broader spectral range, when using a previously explored catalogue, but shows strong discrepancies in amplitude and scale when compared with expectations. More recent catalogues give more moderate results that range from negligible to 2.5σ at most, but have a more consistent scale and amplitude, the latter being still slightly higher than what is expected from numerical simulations within ΛCMD. Where they can be compared, these measurements are compatible with previous work using data from WMAP, where these scales have been mapped to the limits of cosmic variance. Planck’s broader frequency coverage allows for better foreground cleaning and confirms that the signal is achromatic, which makes it preferable for ISW detection. As a final step we used tracers of large-scale structure to filter the CMB data, from which we present maps of the ISW temperature perturbation. These results provide complementary and independent evidence for the existence of a dark energy component that governs the currently accelerated expansion of the Universe.

Keywords : galaxies: clusters: general dark energy large-scale structure of Universe cosmic background radiation methods: data analysis

Document type :

Journal articles

Domain :

Physics [physics] / Astrophysics [astro-ph] / Cosmology and Extra-Galactic Astrophysics [astro-ph.CO]

Sciences of the Universe [physics] / Astrophysics [astro-ph] / Cosmology and Extra-Galactic Astrophysics [astro-ph.CO]

Physics [physics] / Astrophysics [astro-ph]

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Planck 2013 results. XIX. The integrated Sachs-Wolfe effect

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Planck 2013 results. XIX. The integrated Sachs-Wolfe effect

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