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* Corresponding author 1 Dipartimento di Fisica 2 Dip. di Fisica -Occhialini- Università degli Studi di Milano-Bicocca Piazza della Scienza 3 Department of Experimental Physics 4 UP11 - Université Paris-Sud - Paris 11 5 CNRS-Université de Toulouse 6 Physics Department 7 Department of Physics Madison 8 The University of Manchester Manchester 9 Brown University 10 Università degli Studi di Siena 11 Raman Research Institute 12 ASI Science Data Center

Abstract : One of the major challenges of modern cosmology is the detection of B-mode polarization anisotropies in the Cosmic Microwave Background. These originate from tensor fluctuations of the metric produced during the inflationary phase. Their detection would therefore constitute a major step towards understanding the primordial Universe. The expected level of these anisotropies is however so small that it requires a new generation of instruments with high sensitivity and extremely good control of systematic effects. We propose the QUBIC instrument based on the novel concept of bolometric interferometry, bringing together the sensitivity advantages of bolometric detectors with the systematics effects advantages of interferometry. The instrument will directly observe the sky through an array of entry horns whose signals will be combined together using an optical combiner. The whole set-up is located inside a cryostat. Polarization modulation will be achieved using a rotating half-wave plate and the images of the interference fringes will be formed on two focal planes separated by a polarizing grid tiled with bolometers. We show that QUBIC can be considered as a synthetic imager, exactly similar to a usual imager but with a synthesized beam formed by the array of entry horns. Scanning the sky provides an additional modulation of the signal and improve the sky coverage shape. The usual techniques of map-making and power spectrum estimation can then be applied. We show that the sensitivity of such an instrument is comparable with that of an imager with the same number of horns. We anticipate a low level of beam-related systematics thanks to the fact that the synthesized beam is determined by the location of the primary horns. Other systematics should be under good control thanks to an autocalibration technique, specific to our concept, that will permit the accurate determination of most of the instrumental parameters that would otherwise lead to systematics.

Keywords : Cosmology Cosmic Microwave Background Inflation Instrumentation Bolometric Interferometry





Autor: E. Battistelli - A. Baú - D. Bennett - L. Bergé - J.-Ph. Bernard - P. De Bernardis - G. Bordier A. Bounab - É. Bréelle E.F. B

Fuente: https://hal.archives-ouvertes.fr/



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