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CERN Accelerating science

Published Articles
Report number arXiv:1612.08270
Title Exploring Cosmic Origins with CORE: Inflation
Related titleExploring Cosmic Origins with CORE: Inflation
Author(s) Finelli, Fabio (Bologna Observ. ; INFN, Bologna) ; Bucher, Martin (APC, Paris) ; Achúcarro, Ana (Leiden U. ; Basque U., Bilbao) ; Ballardini, Mario (Bologna U. ; Bologna Observ. ; INFN, Bologna) ; Bartolo, Nicola (Padua U. ; INFN, Padua ; Padua Observ.) ; Baumann, Daniel (Cambridge U., DAMTP ; Amsterdam U.) ; Clesse, Sébastien (Aachen, Tech. Hochsch.) ; Errard, Josquin (ILP, Paris ; Paris U., VI-VII) ; Handley, Will (Cambridge U. ; Cambridge U., KICC) ; Hindmarsh, Mark (Sussex U. ; Helsinki Inst. of Phys. ; Helsinki U.) ; Kiiveri, Kimmo (Helsinki Inst. of Phys. ; Helsinki U.) ; Kunz, Martin (Geneva U., CAP ; Geneva U., Dept. Theor. Phys.) ; Lasenby, Anthony (Cambridge U. ; Cambridge U., KICC) ; Liguori, Michele (Padua U. ; INFN, Padua ; Padua Observ.) ; Paoletti, Daniela (Bologna Observ. ; INFN, Bologna) ; Ringeval, Christophe (Louvain U., CP3) ; Väliviita, Jussi (Helsinki Inst. of Phys. ; Helsinki U.) ; Van Tent, Bartjan (Orsay, LPT) ; Vennin, Vincent (Portsmouth U., ICG) ; Arroja, Frederico (Taiwan, Natl. Taiwan U.) ; Ashdown, Marc (Cambridge U., KICC) ; Banday, A.J. (IRAP, Toulouse) ; Banerji, Ranajoy (APC, Paris) ; Baselmans, Jochem (SRON, Utrecht ; KIN, Delft) ; Bartlett, James G. (APC, Paris) ; de Bernardis, Paolo (Rome U. ; INFN, Rome) ; Bersanelli, Marco (Milan U.) ; Bonaldi, Anna (Manchester U.) ; Borril, Julian (LBL, Berkeley ; UC, Berkeley) ; Bouchet, François R. (Paris, Inst. Astrophys.) ; Boulanger, François (Orsay, IAS) ; Brinckmann, Thejs (Aachen, Tech. Hochsch.) ; Cai, Zhen-Yi (Hefei, CUST) ; Calvo, Martino (CEA INAC, Grenoble) ; Challinor, Anthony (Cambridge U., DAMTP ; Cambridge U., KICC ; Cambridge U., Inst. of Astron.) ; Chluba, Jens (Manchester U.) ; D'Amico, Guido (CERN) ; Delabrouille, Jacques (APC, Paris) ; Diego, Jose Maria (Cantabria Inst. of Phys.) ; De Zotti,Gianfranco (Padua Observ.) ; Desjacques, Vincent (Technion ; Geneva U., CAP ; Geneva U., Dept. Theor. Phys.) ; Di Valentino, Eleonora (ILP, Paris ; Paris, Inst. Astrophys.) ; Feeney, Stephen (Imperial Coll., London) ; Fergusson, James R. (Cambridge U., DAMTP) ; Ferraro, Simone (UC, Berkeley, Miller Inst.) ; Forastieri, Francesco (Ferrara U. ; INFN, Ferrara) ; Galli, Silvia (Paris, Inst. Astrophys.) ; García-Bellido, Juan (Madrid, IFT) ; Génova-Santos, Ricardo T. (IAC, La Laguna ; Laguna U., Tenerife) ; Gerbino, Martina (Stockholm U., OKC) ; González-Nuevo, Joaquin (Oviedo U.) ; Grandis, Sebastian (Munich U. ; Munich, Tech. U., Universe) ; Greenslade, Josh (ILP, Paris) ; Hagstotz, Steffen (Munich U. ; Munich, Tech. U., Universe) ; Hanany, Shaul (Minnesota U.) ; Hazra, Dhiraj K. (APC, Paris) ; Hernández-Monteagudo, Carlos (CEFCA, Teruel) ; Hivon, Eric (Paris, Inst. Astrophys.) ; Hu, Bin (Beijing Normal U. ; Barcelona U., ECM ; ICC, Barcelona U.) ; Kovetz, Ely D. (Johns Hopkins U.) ; Kurki-Suonio, Hannu (Helsinki Inst. of Phys. ; Helsinki U.) ; Lattanzi, Massimiliano (Ferrara U. ; INFN, Ferrara) ; Lesgourgues, Julien (Aachen, Tech. Hochsch.) ; Lizarraga, Joanes (Basque U., Bilbao) ; López-Caniego, Marcos (ESA, Madrid) ; Luzzi, Gemma (Rome U. ; INFN, Rome) ; Maffei, Bruno (Orsay, IAS) ; Martins, Carlos J.A.P. (Porto U., Astron. Dept.) ; Martínez-González, Enrique (Cantabria Inst. of Phys.) ; McCarthy, Darragh (NUIM, Maynooth) ; Matarrese, Sabino (Padua U. ; INFN, Padua ; Padua Observ. ; Gran Sasso) ; Melchiorri, Alessandro (Rome U. ; INFN, Rome) ; Melin, Jean-Baptiste (IRFU, SPP, Saclay) ; Monfardini, Alessandro (Neel Lab, Grenoble) ; Natoli, Paolo (Ferrara U. ; INFN, Ferrara) ; Negrello, Mattia (Cardiff U.) ; Notari, Alessio (ICC, Barcelona U.) ; Oppizzi, Filippo (Padua U. ; INFN, Padua) ; Paiella, A. (Rome U. ; INFN, Rome) ; Pajer, Enrico (Utrecht U.) ; Patanchon, Guillaume (APC, Paris ; UPMC, Paris (main)) ; Patil, Subodh P. (Bohr Inst.) ; Piat, Michael (APC, Paris ; UPMC, Paris (main)) ; Pisano, Giampaolo (Cardiff U.) ; Polastri, L. (Ferrara U. ; INFN, Ferrara) ; Polenta, Gianluca (ASI, Rome ; Rome Observ.) ; Poulin, Vivian (Aachen, Tech. Hochsch. ; Annecy, LAPTH) ; Quartin, M. (Rio de Janeiro Federal U.) ; Ravenni, Andrea (Padua U.) ; Remazeilles, Mathieu (Manchester U.) ; Renzi, Alessandro (INFN, Trieste ; SISSA, Trieste) ; Roest, Diederik (Groningen U.) ; Salvati, Laura (Rome U. ; INFN, Rome) ; Tartari, Andrea (APC, Paris) ; Tasinato, Gianmassimo (Swansea U.) ; Torrado, Jesús (Sussex U.) ; Trappe, Neil (NUIM, Maynooth) ; Tucci, Marco (Geneva U., CAP ; Geneva U., Dept. Theor. Phys.) ; Urrestilla, Jon (Basque U., Bilbao) ; Vielva, Patricio (Cantabria Inst. of Phys.) ; van de Weygaert, Rien (Groningen U.)
Collaboration CORE
Publication 2018-04-05
Imprint 2016-12-25
Number of pages 100
Note Latex 107 pages, revised with updated author list and minor modifications
In: JCAP 04 (2018) 016
DOI 10.1088/1475-7516/2018/04/016
Subject category astro-ph.CO ; Astrophysics and Astronomy
Accelerator/Facility, Experiment CORE
Abstract We forecast the scientific capabilities to improve our understanding of cosmic inflation of CORE, a proposed CMB space satellite submitted in response to the ESA fifth call for a medium-size mission opportunity. The CORE satellite will map the CMB anisotropies in temperature and polarization in 19 frequency channels spanning the range 60-600 GHz. CORE will have an aggregate noise sensitivity of $1.7 \mu$K$\cdot \,$arcmin and an angular resolution of 5' at 200 GHz. We explore the impact of telescope size and noise sensitivity on the inflation science return by making forecasts for several instrumental configurations. This study assumes that the lower and higher frequency channels suffice to remove foreground contaminations and complements other related studies of component separation and systematic effects, which will be reported in other papers of the series "Exploring Cosmic Origins with CORE." We forecast the capability to determine key inflationary parameters, to lower the detection limit for the tensor-to-scalar ratio down to the $10^{-3}$ level, to chart the landscape of single field slow-roll inflationary models, to constrain the epoch of reheating, thus connecting inflation to the standard radiation-matter dominated Big Bang era, to reconstruct the primordial power spectrum, to constrain the contribution from isocurvature perturbations to the $10^{-3}$ level, to improve constraints on the cosmic string tension to a level below the presumptive GUT scale, and to improve the current measurements of primordial non-Gaussianities down to the $f_{NL}^{\rm local} < 1$ level. For all the models explored, CORE alone will improve significantly on the present constraints on the physics of inflation. Its capabilities will be further enhanced by combining with complementary future cosmological observations.
Copyright/License arXiv nonexclusive-distrib. 1.0



Corresponding record in: Inspire


 Registre creat el 2016-12-29, darrera modificació el 2024-09-05


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