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QUBIC: Exploring the Primordial Universe with the Q&U Bolometric Interferometer
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In this paper, we describe QUBIC, an experiment that will observe the polarized microwave sky with a novel approach, which combines the sensitivity of state-of-the-art bolometric detectors with the systematic effects control typical of interferometers. QUBIC’s unique features are the so-called “self-calibration”, a technique that allows us to clean the measured data from instrumental effects, and its spectral imaging power, i.e., the ability to separate the signal into various sub-bands within each frequency band. QUBIC will observe the sky in two main frequency bands: 150 GHz and 220 GHz. A technological demonstrator is currently under testing and will be deployed in Argentina during 2019, while the final instrument is expected to be installed during 2020.
MDPI AG
Aniello Mennella
Peter Ade
Giorgio Amico
Didier Auguste
Jonathan Aumont
Stefano Banfi
Gustavo Barbaràn
Paola Battaglia
Elia Battistelli
Alessandro Baù
Benoit Bélier
David Bennett
Laurent Bergé
Jean Bernard
Marco Bersanelli
Marie Bigot Sazy
Nathan Bleurvacq
Juan Bonaparte
Julien Bonis
Emory Bunn
David Burke
Daniele Buzi
Alessandro Buzzelli
Francesco Cavaliere
Pierre Chanial
Claude Chapron
Romain Charlassier
Fabio Columbro
Gabriele Coppi
Alessandro Coppolecchia
Rocco D’Agostino
Giuseppe D’Alessandro
Paolo De Bernardis
Giancarlo De Gasperis
Michele De Leo
Marco De Petris
Andres Di Donato
Louis Dumoulin
Alberto Etchegoyen
Adrián Fasciszewski
Cristian Franceschet
Martin Gamboa Lerena
Beatriz Garcia
Xavier Garrido
Michel Gaspard
Amanda Gault
Donnacha Gayer
Massimo Gervasi
Martin Giard
Yannick Giraud Héraud
Mariano Gómez Berisso
Manuel González
Marcin Gradziel
Laurent Grandsire
Eric Guerard
Jean Hamilton
Diego Harari
Vic Haynes
Sophie Henrot Versillé
Duc Thuong Hoang
Nicolas Holtzer
Federico Incardona
Eric Jules
Jean Kaplan
Andrei Korotkov
Christian Kristukat
Luca Lamagna
Sotiris Loucatos
Thibaut Louis
Amy Lowitz
Vladimir Lukovic
Raùl Luterstein
Bruno Maffei
Stefanos Marnieros
Silvia Masi
Angelo Mattei
Andrew May
Mark McCulloch
Maria Medina
Lorenzo Mele
Simon Melhuish
Ludovic Montier
Louise Mousset
Luis Mundo
John Murphy
James Murphy
Creidhe O’Sullivan
Emiliano Olivieri
Alessandro Paiella
Francois Pajot
Andrea Passerini
Hernan Pastoriza
Alessandro Pelosi
Camille Perbost
Maurizio Perciballi
Federico Pezzotta
Francesco Piacentini
Michel Piat
Lucio Piccirillo
Giampaolo Pisano
Gianluca Polenta
Damien Prêle
Roberto Puddu
Damien Rambaud
Pablo Ringegni
Gustavo Romero
Maria Salatino
Alessandro Schillaci
Claudia Scóccola
Stephen Scully
Sebastiano Spinelli
Guillaume Stankowiak
Michail Stolpovskiy
Federico Suarez
Andrea Tartari
Jean Thermeau
Peter Timbie
Maurizio Tomasi
Steve Torchinsky
Matthieu Tristram
Carole Tucker
Gregory Tucker
Sylvain Vanneste
Daniele Viganò
Nicola Vittorio
Fabrice Voisin
Robert Watson
Francois Wicek
Mario Zannoni
Antonio Zullo
Title: QUBIC: Exploring the Primordial Universe with the Q&U Bolometric Interferometer
Description:
In this paper, we describe QUBIC, an experiment that will observe the polarized microwave sky with a novel approach, which combines the sensitivity of state-of-the-art bolometric detectors with the systematic effects control typical of interferometers.
QUBIC’s unique features are the so-called “self-calibration”, a technique that allows us to clean the measured data from instrumental effects, and its spectral imaging power, i.
e.
, the ability to separate the signal into various sub-bands within each frequency band.
QUBIC will observe the sky in two main frequency bands: 150 GHz and 220 GHz.
A technological demonstrator is currently under testing and will be deployed in Argentina during 2019, while the final instrument is expected to be installed during 2020.
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