Loops abound in the cosmic microwave background: A 4σ anomaly on super-horizon scales
Abstract
We present a topological analysis of the temperature fluctuation maps from the Planck 2020 Data release 4 (DR4) based on the NPIPE data processing pipeline. For comparison, we also present the topological characteristics of the maps from Planck 2018 Data release 3 (DR3). We perform our analysis in terms of the homology characteristics of the maps, invoking relative homology to account for analysis in the presence of masks. We perform our analysis for a range of smoothing scales spanning sub- and super-horizon scales corresponding to FWHM = 5', 10', 20', 40', 80', 160', 320', 640'. Our main result indicates a significantly anomalous behavior of the loops in the observed maps compared to simulations that are modeled as isotopic and homogeneous Gaussian random fields. Specifically, we observe a 4σ deviation between the observation and simulations in the number of loops at FWHM = 320' and FWHM = 640', corresponding to super-horizon scales of 5 degrees and larger. In addition, we also notice a mildly significant deviation at 2σ for all the topological descriptors for almost all the scales analyzed. Our results show a consistency across different data releases, and therefore, the anomalous behavior deserves a careful consideration regarding its origin and ramifications. Disregarding the unlikely source of the anomaly being instrumental systematics, the origin of the anomaly may be genuinely astrophysical -- perhaps due to a yet unresolved foreground, or truly primordial in nature. Given the nature of the topological descriptors, that potentially encodes information of all orders, non-Gaussianities, of either primordial or late-type nature, may be potential candidates. Alternate possibilities include the Universe admitting a non-trivial global topology, including effects induced by large-scale topological defects.
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