Exploring Cosmic Origins with CORE: Extragalactic sources in Cosmic   Microwave Background maps

G. De Zotti; J. Gonzalez-Nuevo; M. Lopez-Caniego; M. Negrello; J.; Greenslade; C. Hernandez-Monteagudo; J. Delabrouille; Z.-Y. Cai; M. Bonato,; A. Achucarro; P. Ade; R. Allison; M. Ashdown; M. Ballardini; A.J. Banday; R.; Banerji; J.G. Bartlett; N. Bartolo; S. Basak; M. Bersanelli; M. Biesiada; M.; Bilicki; A. Bonaldi; J. Borrill; F. Bouchet; F. Boulanger; T. Brinckmann; M.; Bucher; C. Burigana; A. Buzzelli; M. Calvo; C.S. Carvalho; M.G. Castellano,; A. Challinor; J. Chluba; D.L. Clements; S. Clesse; S. Colafrancesco; I.; Colantoni; A. Coppolecchia; M. Crook; G. D'Alessandro; P. de Bernardis; G. de; Gasperis; J.M. Diego; E. Di Valentino; J. Errard; S. M. Feeney; R.; Fernandez-Cobos; S. Ferraro; F. Finelli; F. Forastieri; S. Galli; R.T.; Genova-Santos; M. Gerbino; S. Grandis; S. Hagstotz; S. Hanany; W. Handley; C.; Hervias-Caimapo; M. Hills; E. Hivon; K. Kiiveri; T. Kisner; T. Kitching; M.; Kunz; H.Kurki-Suonio; G. Lagache; L. Lamagna; A. Lasenby; M. Lattanzi; A. Le; Brun; J. Lesgourgues; A. Lewis; M. Liguori; V. Lindholm; G. Luzzi; B. Maffei,; N. Mandolesi; E. Martinez-Gonzalez; C.J.A.P. Martins; S. Masi; M. Massardi,; D. McCarthy; A. Melchiorri; J.-B. Melin; D. Molinari; A. Monfardini; P.; Natoli; A. Notari; A. Paiella; D. Paoletti; R.B. Partridge; G. Patanchon; M.; Piat; G. Pisano; L. Polastri; G. Polenta; A. Pollo; V. Poulin; M. Quartin; M.; Remazeilles; M. Roman; G. Rossi; B.F. Roukema; J.-A. Rubino-Martin; L.; Salvati; D. Scott; S. Serjeant; A. Tartari; L. Toffolatti; M. Tomasi; N.; Trappe; S. Triqueneaux; T. Trombetti; M. Tucci; C. Tucker; J. Valiviita; R.; van de Weygaert; B. Van Tent; V. Vennin; P. Vielva; N. Vittorio; K. Young; (for the CORE collaboration)

arXiv:1609.07263·astro-ph.GA·August 13, 2019

Exploring Cosmic Origins with CORE: Extragalactic sources in Cosmic Microwave Background maps

G. De Zotti, J. Gonzalez-Nuevo, M. Lopez-Caniego, M. Negrello, J., Greenslade, C. Hernandez-Monteagudo, J. Delabrouille, Z.-Y. Cai, M. Bonato,, A. Achucarro, P. Ade, R. Allison, M. Ashdown, M. Ballardini, A.J. Banday, R., Banerji, J.G. Bartlett, N. Bartolo, S. Basak

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TL;DR

The CORE space mission aims to enhance our understanding of extragalactic sources by providing high-resolution, sensitive observations of high-z galaxies, proto-clusters, and polarized emissions, surpassing previous missions like Planck.

Contribution

This paper presents the scientific potential of the CORE mission, highlighting its improved resolution and sensitivity for detecting and studying extragalactic sources in the CMB maps.

Findings

01

CORE will detect thousands of strongly lensed high-z galaxies.

02

CORE's resolution improves detection of proto-clusters beyond other surveys.

03

High sensitivity allows detection of polarized emissions from radio and dusty galaxies.

Abstract

We discuss the potential of a next generation space-borne Cosmic Microwave Background (CMB) experiment for studies of extragalactic sources. Our analysis has particular bearing on the definition of the future space project, CORE, that has been submitted in response to ESA's call for a Medium-size mission opportunity as the successor of the Planck satellite. Even though the effective telescope size will be somewhat smaller than that of Planck, CORE will have a considerably better angular resolution at its highest frequencies, since, in contrast with Planck, it will be diffraction limited at all frequencies. The improved resolution implies a considerable decrease of the source confusion, i.e. substantially fainter detection limits. In particular, CORE will detect thousands of strongly lensed high-z galaxies distributed over the full sky. The extreme brightness of these galaxies will make…

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