http://arxiv.org/abs/2212.02869
The Indian Consortium of Cosmologists has proposed a fourth-generation CMB space mission aiming to detect the primordial B-mode of Cosmic Microwave Background(CMB) polarization. The detection of this faint signal is very challenging as it is deeply buried under the dominant astrophysical foreground emissions of the thermal dust and the synchrotron. To facilitate the adequate subtraction of thermal dust, the instrument design of ECHO has included nine dust-dominated high frequency channels in the range of 220-850 GHz. In this work, we closely re-examine the utility of the high frequency ECHO bands using the Needlet Internal Linear Combination(NILC) component separation method. We consider three dust models; a dust SED with single modified black body(MBB) emission law, a physical dust model and a multilayer dust model with frequency-frequency decorrelation. We find that the ECHO bands in the range of 220-390 GHz are most crucial for effective dust removal. The addition of high frequency channels in the 600-850 GHz range leads to only a slight improvement in the sensitivity of ECHO for the single MBB model and no significant improvement for the more complex physical and multilayer dust models.
A. Sen, S. Basak, T. Ghosh, et. al.
Wed, 7 Dec 22
18/74
Comments: 13 pages, 9 Figures
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