The Q&U Bolometric Interferometer for Cosmology (QUBIC) is the first bolometric interferometer designed to measure the primordial B-mode polarization of the Cosmic Microwave Background (CMB). Bolometric interferometry is a novel technique that combines the sensitivity of bolometric detectors with the control of systematic effects that is typical of interferometry, both key features in the quest for the faint signal of the primordial B-modes. A unique feature is the so-called “spectral imaging”, i.e., the ability to recover the sky signal in several sub-bands within the physical band during data analysis. This feature provides an in-band spectral resolution of ∆ν/ν ∼ 0.04 that is unattainable by a traditional imager. This is a key tool for controlling the Galactic foregrounds contamination. In this paper, we describe the principles of bolometric interferometry, the current status of the QUBIC experiment and future prospects.
Mennella, A., Ade, P., Almela, A., Amico, G., Arnaldi, L., Aumont, J., et al. (2024). Measuring the CMB primordial B-modes with Bolometric Interferometry Status and future prospects of the QUBIC experiment. In 3rd Observing the Universe at mm Wavelengths, mm Universe 2023 (pp.1-6). EDP Sciences [10.1051/epjconf/202429300030].
Measuring the CMB primordial B-modes with Bolometric Interferometry Status and future prospects of the QUBIC experiment
Banfi S.;Gervasi M.;Nati F.;Passerini A.;Tartari A.;Zannoni M.;
2024
Abstract
The Q&U Bolometric Interferometer for Cosmology (QUBIC) is the first bolometric interferometer designed to measure the primordial B-mode polarization of the Cosmic Microwave Background (CMB). Bolometric interferometry is a novel technique that combines the sensitivity of bolometric detectors with the control of systematic effects that is typical of interferometry, both key features in the quest for the faint signal of the primordial B-modes. A unique feature is the so-called “spectral imaging”, i.e., the ability to recover the sky signal in several sub-bands within the physical band during data analysis. This feature provides an in-band spectral resolution of ∆ν/ν ∼ 0.04 that is unattainable by a traditional imager. This is a key tool for controlling the Galactic foregrounds contamination. In this paper, we describe the principles of bolometric interferometry, the current status of the QUBIC experiment and future prospects.
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