A new approach for the statistical denoising of Planck interstellar dust polarization data [CEA]

http://arxiv.org/abs/2102.03160


Dust emission is the main foreground to Cosmic Microwave Background (CMB) polarization. Its statistical characterization must be derived from the analysis of observational data because the precision required for a reliable component separation is far greater than currently achievable with physical models of the turbulent magnetized interstellar medium. This letter takes a significant step towards this goal by proposing a method that retrieves non-Gaussian statistical characteristics of dust emission from noisy Planck polarization observations at 353 GHz. We devise a statistical denoising method based on the Wavelet Phase Harmonics (WPH) statistics, which characterize the coherent structures in non-Gaussian random fields and define a generative model of the data. The method is validated on mock data combining a dust map from a magnetohydrodynamic simulation and Planck noise maps. The denoised map reproduces the true power spectrum down to scales where the noise power is an order of magnitude larger than that of the signal. It remains highly correlated to the true emission and retrieves some of its non-Gaussian properties. Applied to Planck data, the method provides a new approach towards building a generative model of dust polarization that will characterize the full complexity of the dust emission.

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B. Blancard, E. Allys, F. Boulanger, et. al.
Mon, 8 Feb 21
18/46

Comments: 9 pages, 6 figures, submitted to A&A