CHANG-ES XXXIX. Magnetic field structure in edge-on galaxies: Stacking Stokes parameters

Abstract

Galactic magnetic fields regulate star formation and cosmic-ray (CR) transport, and understanding their three-dimensional structure, particularly in star-forming late-type galaxies, is key to constraining galactic CR transport. We explore the validity of stacking Stokes Q and U spectra, to infer about the intrinsic polarisation characteristics of star-forming galaxies. To prepare the stacking experiment, we align, scale, convolve, and reproject C-band (6 GHz) Stokes Q and Stokes U cubes of 27 star-forming late-type edge-on galaxies. On the stacked cubes, we perform RM-synthesis and discuss the derived polarised intensity (PI), polarisation angle (χ0), and RM maps. Synthetic data tests demonstrate that stacking Stokes Q and U spectra is valid for tightly constrained underlying distributions of PI, χ0, and RM. For underlying PI, χ0, and RM distributions that represent star-forming galaxies, stacking introduces a systematic uncertainty of δRMsys=90 rad m-2 and significantly underestimates the recovered PI. Stacking results reveal a clear X-shaped pattern in the polarisation plane, consistent with prior findings, detecting polarised emission up to 9 kpc above the galactic disc. We find stronger PI on the approaching side of galaxies. Furthermore, we find a decrease in PI in the galactic halo of 60% near the galaxy's minor axis. A global RM pattern, as reported in a previous study, cannot be confirmed. Based on our analysis, we present stacking of Stokes Q and Stokes U cubes as an effective tool to recover faint polarised emission in the halo of nearby galaxies, if the underlying distributions of PI, χ0, and RM are tightly constrained. Our findings motivate future studies using broader-band data to increase the resolution in Faraday depth.