QUBIC II: Spectro-Polarimetry with Bolometric Interferometry

Mousset, L.; Gamboa Lerena, M.M.; Battistelli, E.S.; de Bernardis, P.; Chanial, P.; D'Alessandro, G.; Dashyan, G.; De Petris, M.; Grandsire, L.; Hamilton, J.-.; Incardona, F.; Landau, S.; Marnieros, S.; Masi, S.; Mennella, A.; O'Sullivan, C.; Piat, M.; Ricciardi, G.; Scóccola, C.G.; Stolpovskiy, M.; Tartari, A.; Thermeau, J.-.; Torchinsky, S.A.; Voisin, F.; Zannoni, M.; Ade, P.; Alberro, J.G.; Almela, A.; Amico, G.; Arnaldi, L.H.; Auguste, D.; Aumont, J.; Azzoni, S.; Banfi, S.; Bélier, B.; Baù, A.; Bennett, D.; Bergé, L.; Bernard, J.-.; Bersanelli, M.; Bigot-Sazy, M.-.; Bonaparte, J.; Bonis, J.; Bunn, E.; Burke, D.; Buzi, D.; Cavaliere, F.; Chapron, C.; Charlassier, R.; Cobos Cerutti, A.C.; Columbro, F.; Coppolecchia, A.; De Gasperis, G.; De Leo, M.; Dheilly, S.; Duca, C.; Dumoulin, L.; Etchegoyen, A.; Fasciszewski, A.; Ferreyro, L.P.; Fracchia, D.; Franceschet, C.; Ganga, K.M.; García, B.; García Redondo, M.E.; Gaspard, M.; Gayer, D.; Gervasi, M.; Giard, M.; Gilles, V.; Giraud-Heraud, Y.; Gómez Berisso, M.; González, M.; Gradziel, M.; Hampel, M.R.; Harari, D.; Henrot-Versillé, S.; Jules, E.; Kaplan, J.; Kristukat, C.; Lamagna, L.; Loucatos, S.; Louis, T.; Maffei, B.; Marty, W.; Mattei, A.; May, A.; Mcculloch, M.; Mele, L.; Melo, D.; Montier, L.; Mundo, L.M.; Murphy, J.A.; Murphy, J.D.; Nati, F.; Olivieri, E.; Oriol, C.; Paiella, A.; Pajot, F.; Passerini, A.; Pastoriza, H.; Pelosi, A.; Perbost, C.; Perciballi, M.; Pezzotta, F.; Piacentini, F.; Piccirillo, L.; Pisano, G.; Platino, M.; Polenta, G.; Prêle, D.; Puddu, R.; Rambaud, D.; Rasztocky, E.; Ringegni, P.; Romero, G.E.; Salum, J.M.; Schillaci, A.; Scully, S.; Spinelli, S.; Stankowiak, G.; Supanitsky, A.D.; Timbie, P.; Tomasi, M.; Tucker, G.; Tucker, C.; Viganò, D.; Vittorio, N.; Wicek, F.; Wright, M.; Zullo, A.

doi:10.1088/1475-7516/2022/04/035

Bolometric interferometry is a novel technique that has the ability to perform spectral imaging. A bolometric interferometer observes the sky in a wide frequency band and can reconstruct sky maps in several sub-bands within the physical band in post-processing of the data. This provides a powerful spectral method to discriminate between the cosmic microwave background (CMB) and astrophysical foregrounds. In this paper, the methodology is illustrated with examples based on the Q & U Bolometric Interferometer for Cosmology (QUBIC) which is a ground-based instrument designed to measure the B-mode polarization of the sky at millimeter wavelengths. We consider the specific cases of point source reconstruction and Galactic dust mapping and we characterize the point spread function as a function of frequency. We study the noise properties of spectral imaging, especially the correlations between sub-bands, using end-to-end simulations together with a fast noise simulator. We conclude showing that spectral imaging performance are nearly optimal up to five sub-bands in the case of QUBIC.

QUBIC II: Spectro-Polarimetry with Bolometric Interferometry / L. Mousset, M.M. Gamboa Lerena, E.S. Battistelli, P. de Bernardis, P. Chanial, G. D'Alessandro, G. Dashyan, M. De Petris, L. Grandsire, J.-. Hamilton, F. Incardona, S. Landau, S. Marnieros, S. Masi, A. Mennella, C. O'Sullivan, M. Piat, G. Ricciardi, C.G. Scóccola, M. Stolpovskiy, A. Tartari, J.-. Thermeau, S.A. Torchinsky, F. Voisin, M. Zannoni, P. Ade, J.G. Alberro, A. Almela, G. Amico, L.H. Arnaldi, D. Auguste, J. Aumont, S. Azzoni, S. Banfi, B. Bélier, A. Baù, D. Bennett, L. Bergé, J.-. Bernard, M. Bersanelli, M.-. Bigot-Sazy, J. Bonaparte, J. Bonis, E. Bunn, D. Burke, D. Buzi, F. Cavaliere, C. Chapron, R. Charlassier, A.C. Cobos Cerutti, F. Columbro, A. Coppolecchia, G. De Gasperis, M. De Leo, S. Dheilly, C. Duca, L. Dumoulin, A. Etchegoyen, A. Fasciszewski, L.P. Ferreyro, D. Fracchia, C. Franceschet, K.M. Ganga, B. García, M.E. García Redondo, M. Gaspard, D. Gayer, M. Gervasi, M. Giard, V. Gilles, Y. Giraud-Heraud, M. Gómez Berisso, M. González, M. Gradziel, M.R. Hampel, D. Harari, S. Henrot-Versillé, E. Jules, J. Kaplan, C. Kristukat, L. Lamagna, S. Loucatos, T. Louis, B. Maffei, W. Marty, A. Mattei, A. May, M. Mcculloch, L. Mele, D. Melo, L. Montier, L.M. Mundo, J.A. Murphy, J.D. Murphy, F. Nati, E. Olivieri, C. Oriol, A. Paiella, F. Pajot, A. Passerini, H. Pastoriza, A. Pelosi, C. Perbost, M. Perciballi, F. Pezzotta, F. Piacentini, L. Piccirillo, G. Pisano, M. Platino, G. Polenta, D. Prêle, R. Puddu, D. Rambaud, E. Rasztocky, P. Ringegni, G.E. Romero, J.M. Salum, A. Schillaci, S. Scully, S. Spinelli, G. Stankowiak, A.D. Supanitsky, P. Timbie, M. Tomasi, G. Tucker, C. Tucker, D. Viganò, N. Vittorio, F. Wicek, M. Wright, A. Zullo. - In: JOURNAL OF COSMOLOGY AND ASTROPARTICLE PHYSICS. - ISSN 1475-7516. - 2022:4(2022 Apr), pp. 035.1-035.27. [10.1088/1475-7516/2022/04/035]

QUBIC II: Spectro-Polarimetry with Bolometric Interferometry

L. Mousset;M. M. Gamboa Lerena;E. S. Battistelli;P. de Bernardis;P. Chanial;G. D'Alessandro;G. Dashyan;M. De Petris;L. Grandsire;J. -Ch. Hamilton;F. Incardona;S. Landau;S. Marnieros;S. Masi;A. Mennella;C. O'Sullivan;M. Piat;G. Ricciardi;C. G. Scóccola;M. Stolpovskiy;A. Tartari;J. -P. Thermeau;S. A. Torchinsky;F. Voisin;M. Zannoni;P. Ade;J. G. Alberro;A. Almela;G. Amico;L. H. Arnaldi;D. Auguste;J. Aumont;S. Azzoni;S. Banfi;B. Bélier;A. Baù;D. Bennett;L. Bergé;J. -Ph. Bernard;M. Bersanelli;M. -A. Bigot-Sazy;J. Bonaparte;J. Bonis;E. Bunn;D. Burke;D. Buzi;F. Cavaliere;C. Chapron;R. Charlassier;A. C. Cobos Cerutti;F. Columbro;A. Coppolecchia;G. De Gasperis;M. De Leo;S. Dheilly;C. Duca;L. Dumoulin;A. Etchegoyen;A. Fasciszewski;L. P. Ferreyro;D. Fracchia;C. Franceschet;K. M. Ganga;B. García;M. E. García Redondo;M. Gaspard;D. Gayer;M. Gervasi;M. Giard;V. Gilles;Y. Giraud-Heraud;M. Gómez Berisso;M. González;M. Gradziel;M. R. Hampel;D. Harari;S. Henrot-Versillé;E. Jules;J. Kaplan;C. Kristukat;L. Lamagna;S. Loucatos;T. Louis;B. Maffei;W. Marty;A. Mattei;A. May;M. McCulloch;L. Mele;D. Melo;L. Montier;L. M. Mundo;J. A. Murphy;J. D. Murphy;F. Nati;E. Olivieri;C. Oriol;A. Paiella;F. Pajot;A. Passerini;H. Pastoriza;A. Pelosi;C. Perbost;M. Perciballi;F. Pezzotta;F. Piacentini;L. Piccirillo;G. Pisano;M. Platino;G. Polenta;D. Prêle;R. Puddu;D. Rambaud;E. Rasztocky;P. Ringegni;G. E. Romero;J. M. Salum;A. Schillaci;S. Scully;S. Spinelli;G. Stankowiak;A. D. Supanitsky;P. Timbie;M. Tomasi;G. Tucker;C. Tucker;D. Viganò;N. Vittorio;F. Wicek;M. Wright;A. Zullo

2022

Abstract

Bolometric interferometry is a novel technique that has the ability to perform spectral imaging. A bolometric interferometer observes the sky in a wide frequency band and can reconstruct sky maps in several sub-bands within the physical band in post-processing of the data. This provides a powerful spectral method to discriminate between the cosmic microwave background (CMB) and astrophysical foregrounds. In this paper, the methodology is illustrated with examples based on the Q & U Bolometric Interferometer for Cosmology (QUBIC) which is a ground-based instrument designed to measure the B-mode polarization of the sky at millimeter wavelengths. We consider the specific cases of point source reconstruction and Galactic dust mapping and we characterize the point spread function as a function of frequency. We study the noise properties of spectral imaging, especially the correlations between sub-bands, using end-to-end simulations together with a fast noise simulator. We conclude showing that spectral imaging performance are nearly optimal up to five sub-bands in the case of QUBIC.

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	Parole chiave
	
				CMBR experiments, CMBR theory, cosmological parameters from CMBR, gravitational waves and CMBR polarization
			
	Settori scientifico-disciplinari dell'articolo (sola visualizzazione)
	
				Settore FIS/05 - Astronomia e Astrofisica
			
	Data di pubblicazione
	
				apr-2022
			
	Data ahead of print o data di stampa
	
				ott-2020
			
	Rivista in ANCE
	
				JOURNAL OF COSMOLOGY AND ASTROPARTICLE PHYSICS
			
	DOI
	
				https://dx.doi.org/10.1088/1475-7516/2022/04/035
			
	Sostituita dalla registrazione
	
				hdl:2434/918060
			
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