EPJ Web of Conferences (Jan 2024)

The advantage of Bolometric Interferometry for controlling Galactic foreground contamination in CMB primordial B-modes measurements

  • Manzan E.,
  • Regnier M.,
  • Hamilton J-Ch.,
  • Mennella A.,
  • Errard J.,
  • Zapelli L.,
  • Torchinsky S.A.,
  • Paradiso S.,
  • Battistelli E.,
  • Bersanelli M.,
  • De Bernardis P.,
  • De Petris M.,
  • D’Alessandro G.,
  • Gervasi M.,
  • Masi S.,
  • Piat M.,
  • Rasztocky E.,
  • Romero G.E,
  • Scoccola C.G.,
  • Zannoni M.

DOI
https://doi.org/10.1051/epjconf/202429300029
Journal volume & issue
Vol. 293
p. 00029

Abstract

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In the quest for the faint primordial B-mode polarization of the Cosmic Microwave Background, three are the key requirements for any present or future experiment: an utmost sensitivity, excellent control over instrumental systematic effects and over Galactic foreground contamination. Bolometric Interferometry (BI) is a novel technique that matches them all by combining the sensitivity of bolometric detectors, the control of instrumental systematics from interferometry and a software-based, tunable, in-band spectral resolution due to its ability to perform band-splitting during data analysis (spectral imaging). In this paper, we investigate how the spectral imaging capability of BI can help in detecting residual contamination in case an over-simplified model of foreground emission is assumed in the analysis. To mimic this situation, we focus on the next generation of ground-based CMB experiment, CMB-S4, and compare its anticipated sensitivities, frequency and sky coverage with a hypothetical version of the same experiment based on BI, CMB-S4/BI, assuming that lineof-sight (LOS) frequency decorrelation is present in dust emission but is not accounted for during component separation. We show results from a Monte-Carlo analysis based on a parametric component separation method (FGBuster), highlighting how BI has the potential to diagnose the presence of foreground residuals in estimates of the tensor-to-scalar ratio r in the case of unaccounted Galactic dust LOS frequency decorrelation.