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arxiv: 2405.13201 · v1 · pith:TTSGEPTW · submitted 2024-05-21 · astro-ph.CO

The Simons Observatory: Combining delensing and foreground cleaning for improved constraints on inflation

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classification astro-ph.CO
keywords delensingforegroundlensingcleaningforegroundsgravitationalmodesobservatory
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The Simons Observatory (SO), a next-generation ground-based CMB experiment in its final stages of construction, will target primordial $B$-modes with unprecedented sensitivity to set tight bounds on the amplitude of inflationary gravitational waves. Aiming to infer the tensor-to-scalar ratio $r$ with precision $\sigma(r=0) \leq 0.003$, SO will rely on powerful component-separation algorithms to distinguish the faint primordial signal from stronger sources of large-scale $B$-modes such as Galactic foregrounds and weak gravitational lensing. We present an analysis pipeline that performs delensing and foreground cleaning simultaneously by including multifrequency CMB data and a lensing $B$-mode template in a power-spectrum-based likelihood. Here, we demonstrate this algorithm on masked SO-like simulations containing inhomogeneous noise and non-Gaussian foregrounds. The lensing convergence is reconstructed from high-resolution simulations of the CMB and external mass tracers. Using optimized pixel weights for power spectrum estimation, the target precision for SO's nominal design is achieved and delensing reduces $\sigma(r)$ by 27-37%, depending on foreground complexity.

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Cited by 2 Pith papers

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  1. Inflation from a Weyl-flat null origin

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    Single-field inflation with ε(N) approaching a constant in (0,1) at early times forms an asymptotic universality class with a Weyl-flat null origin while producing ns and r values compatible with Planck data.

  2. Understanding the non-Gaussian nature of Galactic foreground emissions towards small scales

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