Astro2020 APC White Paper: The need for better tools to design future CMB experiments
arXiv:1908.01907
The paper argues that designing next‑generation CMB experiments capable of detecting primordial gravitational‑wave signals (r ≈ 10⁻³–10⁻⁴) requires more accurate and robust simulation and analysis tools to handle foregrounds, lensing, and instrumental systematics.
Abstract
This white paper addresses key challenges for the design of next-decade Cosmic Microwave Background (CMB) experiments, and for assessing their capability to extract cosmological information from CMB polarization. We focus here on the challenges posed by foreground emission, CMB lensing, and instrumental systematics to detect the signal that arises from gravitational waves sourced by inflation and parameterized by $r$, at the level of $r \sim 10^{-3}$ or lower, as proposed for future observational efforts. We argue that more accurate and robust analysis and simulation tools are required for these experiments to realize their promise. We are optimistic that the capability to simulate the joint impact of foregrounds, CMB lensing, and systematics can be developed to the level necessary to support the design of a space mission at $r \sim 10^{-4}$ in a few years. We make the case here for supporting such work. Although ground-based efforts present additional challenges (e.g., atmosphere, ground pickup), which are not addressed here, they would also benefit from these improved simulation capabilities.
10 pages + references, 4 figures; Submitted to the Astro2020 call for APC white papers