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The Galactic latitude dependency of Faraday complexity in the S-PASS/ATCA RM catalogue

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arxiv 2403.13500 v1 pith:RQGZDGGG submitted 2024-03-20 astro-ph.GA

The Galactic latitude dependency of Faraday complexity in the S-PASS/ATCA RM catalogue

classification astro-ph.GA
keywords atcacataloguecomplexitygalacticspassfaradayobservationspolarised
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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The S-band Polarisation All Sky Survey (SPASS/ATCA) rotation measure (RM) catalogue is the largest broadband RM catalogue to date, increasing the RM density in the sparse southern sky. Through analysis of this catalogue, we report a latitude dependency of the Faraday complexity of polarised sources in this catalogue within 10$^\circ$ of the Galactic plane towards the inner Galaxy. In this study, we aim to investigate this trend with follow-up observations using the Australia Telescope Compact Array (ATCA). We observe 95 polarised sources from the SPASS/ATCA RM catalogue at 1.1 - 3.1 GHz with ATCA's 6 km configuration. We present Stokes QU fitting results and a comparative analysis with the SPASS/ATCA catalogue. We find an overall decrease in complexity in these sources with the higher angular resolution observations, with a complexity fraction of 42\%, establishing that the majority of the complexity in the SPASS/ATCA sample is due to the mixing-in of diffuse Galactic emission at scales $\theta > 2.8'$. Furthermore, we find a correlation between our observed small-scale complexity $\theta < 2.8'$ and the Galactic spiral arms, which we interpret to be due to Galactic turbulence or small-scale polarised emission. These results emphasise the importance of considering the maximum angular scale to which the observations are sensitive in the classification of Faraday complexity; the effect of which can be more carefully investigated with SKA-precursor and pathfinder arrays (e.g. MeerKAT and ASKAP).

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Cited by 1 Pith paper

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  1. Faraday depth similarities across scales with LoTSS & DRAGONS

    astro-ph.GA 2026-07 accept novelty 5.5

    LoTSS and DRAGONS Faraday-depth first-moment maps agree strongly despite no shared frequency or spatial-scale coverage, implying cross-scale coupling in the magnetised ISM.