Planck Early Results XVIII: The power spectrum of cosmic infrared   background anisotropies

Planck Collaboration: P. A. R. Ade; N. Aghanim; M. Arnaud; M. Ashdown,; J. Aumont; C. Baccigalupi; A. Balbi; A. J. Banday; R. B. Barreiro; J. G.; Bartlett; E. Battaner; K. Benabed; A. Beno\^it; J.-P. Bernard; M. Bersanelli,; R. Bhatia; K. Blagrave; J. J. Bock; A. Bonaldi; L. Bonavera; J. R. Bond; J.; Borrill; F. R. Bouchet; M. Bucher; C. Burigana; P. Cabella; J.-F. Cardoso; A.; Catalano; L. Cay\'on; A. Challinor; A. Chamballu; L.-Y Chiang; C. Chiang; P.; R. Christensen; D. L. Clements; S. Colombi; F. Couchot; A. Coulais; B. P.; Crill; F. Cuttaia; L. Danese; R. D. Davies; R. J. Davis; P. de Bernardis; G.; de Gasperis; A. de Rosa; G. de Zotti; J. Delabrouille; J.-M. Delouis; F.-X.; D\'esert; H. Dole; S. Donzelli; O. Dor\'e; U. D\"orl; M. Douspis; X. Dupac,; G. Efstathiou; T. A. En{\ss}lin; H. K. Eriksen; F. Finelli; O. Forni; P.; Fosalba; M. Frailis; E. Franceschi; S. Galeotta; K. Ganga; M. Giard; G.; Giardino; Y. Giraud-H\'eraud; J. Gonz\'alez-Nuevo; K. M. G\'orski; J. Grain,; S. Gratton; A. Gregorio; A. Gruppuso; F. K. Hansen; D. Harrison; G. Helou; S.; Henrot-Versill\'e; D. Herranz; S. R. Hildebrandt; E. Hivon; M. Hobson; W. A.; Holmes; W. Hovest; R. J. Hoyland; K. M. Huffenberger; A. H. Jaffe; W. C.; Jones; M. Juvela; E. Keih\"anen; R. Keskitalo; T. S. Kisner; R. Kneissl; L.; Knox; H. Kurki-Suonio; G. Lagache; J.-M. Lamarre; A. Lasenby; R. J. Laureijs,; C. R. Lawrence; S. Leach; R. Leonardi; C. Leroy; P. B. Lilje; M.; Linden-V{\o}rnle; F. J. Lockman; M. L\'opez-Caniego; P. M. Lubin; J. F.; Mac\'ias-P\'erez; C. J. MacTavish; B. Maffei; D. Maino; N. Mandolesi; R.; Mann; M. Maris; P. Martin; E. Mart\'inez-Gonz\'alez; S. Masi; S. Matarrese,; F. Matthai; P. Mazzotta; A. Melchiorri; L. Mendes; A. Mennella; S. Mitra,; M.-A. Miville-Desch\^enes; A. Moneti; L. Montier; G. Morgante; D. Mortlock,; D. Munshi; A. Murphy; P. Naselsky; P. Natoli; C. B. Netterfield; H. U.; N{\o}rgaard-Nielsen; D. Novikov; I. Novikov; I. J. O'Dwyer; S. Oliver; S.; Osborne; F. Pajot; F. Pasian; G. Patanchon; O. Perdereau; L. Perotto; F.; Perrotta; F. Piacentini; M. Piat; D. Pinheiro Gon\c{c}alves; S. Plaszczynski,; E. Pointecouteau; G. Polenta; N. Ponthieu; T. Poutanen; G. Pr\'ezeau; S.; Prunet; J.-L. Puget; J. P. Rachen; W. T. Reach; M. Reinecke; M. Remazeilles,; C. Renault; S. Ricciardi; T. Riller; I. Ristorcelli; G. Rocha; C. Rosset; M.; Rowan-Robinson; J. A. Rubi\~no-Mart\'in; B. Rusholme; M. Sandri; D. Santos,; G. Savini; D. Scott; M. D. Seiffert; P. Shellard; G. F. Smoot; J.-L. Starck,; F. Stivoli; V. Stolyarov; R. Stompor; R. Sudiwala; R. Sunyaev; J.-F. Sygnet,; J. A. Tauber; L. Terenzi; L. Toffolatti; M. Tomasi; J.-P. Torre; M. Tristram,; J. Tuovinen; G. Umana; L. Valenziano; P. Vielva; F. Villa; N. Vittorio; L. A.; Wade; B. D. Wandelt; M. White; D. Yvon; A. Zacchei; A. Zonca

arXiv:1101.2028·astro-ph.CO·March 17, 2015

Planck Early Results XVIII: The power spectrum of cosmic infrared background anisotropies

Planck Collaboration: P. A. R. Ade, N. Aghanim, M. Arnaud, M. Ashdown,, J. Aumont, C. Baccigalupi, A. Balbi, A. J. Banday, R. B. Barreiro, J. G., Bartlett, E. Battaner, K. Benabed, A. Beno\^it, J.-P. Bernard, M. Bersanelli,, R. Bhatia, K. Blagrave, J. J. Bock, A. Bonaldi

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TL;DR

This study analyzes Planck data to measure the cosmic infrared background anisotropies across multiple frequencies, developing a new model to explain their clustering properties and redshift contributions.

Contribution

It introduces a coupled galaxy evolution and halo model that accurately fits the Planck CIB anisotropy spectra, revealing frequency-dependent halo occupation distributions.

Findings

01

CIB anisotropies are correlated across frequencies with decreasing correlation at larger separations.

02

A new non-linear halo model fits the anisotropy spectra well, indicating complex clustering behavior.

03

Different redshift ranges dominate the CIB at various frequencies, with high-redshift galaxies contributing significantly.

Abstract

Using Planck maps of six regions of low Galactic dust emission with a total area of about 140 square degrees, we determine the angular power spectra of cosmic infrared background (CIB) anisotropies from multipole l = 200 to l = 2000 at 217, 353, 545 and 857 GHz. We use 21-cm observations of HI as a tracer of thermal dust emission to reduce the already low level of Galactic dust emission and use the 143 GHz Planck maps in these fields to clean out cosmic microwave background anisotropies. Both of these cleaning processes are necessary to avoid significant contamination of the CIB signal. We measure correlated CIB structure across frequencies. As expected, the correlation decreases with increasing frequency separation, because the contribution of high-redshift galaxies to CIB anisotropies increases with wavelengths. We find no significant difference between the frequency spectrum of the…

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