The detection of B-modes in the CMB polarization pattern is a major issue in modern cosmology and must therefore be handled with analytical methods that produce reliable results. We describe a method that uses the frequency dependency of the QUBIC synthesized beam to perform component separation at the map-making stage, to obtain more precise results. We aim to demonstrate the feasibility of component separation during the map-making stage in time domain space. This new technique leads to a more accurate description of the data and reduces the biases in cosmological analysis. The method uses a library for highly parallel computation which facilitates the programming and permits the description of experiments as easily manipulated operators. These operators can be combined to obtain a joint analysis using several experiments leading to maximized precision. The results show that the method works well and permits end-to-end analysis for the CMB experiments, and in particular, for QUBIC. The method includes astrophysical foregrounds, and also systematic effects like gain variation in the detectors. We developed a software pipeline that produces uncertainties on tensor-to-scalar ratio at the level of σ(r)∼0.023 using only QUBIC simulated data.
Spectral Imaging with QUBIC: building astrophysical components from Time-Ordered-Data using Bolometric Interferometry / M. Regnier, T. Laclavere, J. Hamilton, E. Bunn, V. Chabirand, P. Chanial, L. Goetz, L. Kardum, P. Masson, N. Miron Granese, C.G. Scóccola, S.A. Torchinsky, E. Battistelli, M. Bersanelli, F. Columbro, A. Coppolecchia, B. Costanza, P. De Bernardis, G. De Gasperis, S. Ferazzoli, A. Flood, K. Ganga, M. Gervasi, L. Grandsire, E. Manzan, S. Masi, A. Mennella, L. Mousset, C. O'Sullivan, A. Paiella, F. Piacentini, M. Piat, L. Piccirillo, E. Rasztocky, M. Stolpovskiy, M. Zannoni. - (2024 Sep 27). [10.48550/arxiv.2409.18714]
Spectral Imaging with QUBIC: building astrophysical components from Time-Ordered-Data using Bolometric Interferometry
M. Bersanelli;E. Manzan;A. Mennella;
2024
Abstract
The detection of B-modes in the CMB polarization pattern is a major issue in modern cosmology and must therefore be handled with analytical methods that produce reliable results. We describe a method that uses the frequency dependency of the QUBIC synthesized beam to perform component separation at the map-making stage, to obtain more precise results. We aim to demonstrate the feasibility of component separation during the map-making stage in time domain space. This new technique leads to a more accurate description of the data and reduces the biases in cosmological analysis. The method uses a library for highly parallel computation which facilitates the programming and permits the description of experiments as easily manipulated operators. These operators can be combined to obtain a joint analysis using several experiments leading to maximized precision. The results show that the method works well and permits end-to-end analysis for the CMB experiments, and in particular, for QUBIC. The method includes astrophysical foregrounds, and also systematic effects like gain variation in the detectors. We developed a software pipeline that produces uncertainties on tensor-to-scalar ratio at the level of σ(r)∼0.023 using only QUBIC simulated data.File | Dimensione | Formato | |
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