📝 SummarXiv

Abstract

The Haslam 408 MHz all-sky map is widely used as a template to model the diffuse Galactic synchrotron emission at radio and microwave frequencies. Recent studies have suggested that there are large uncorrected flux scale errors in this map, however. We investigate the possibility of statistically recalibrating the Haslam map using absolutely-calibrated (but low angular resolution) radio experiments designed to measure the 21cm global signal at low frequencies. We construct a Gibbs sampling scheme to recover the full joint posterior distribution of $\sim 50,000$ parameters, representing the true sky brightness temperature field, as-yet uncorrected flux scale factors, and synchrotron power-law spectral indices. Using idealised full-sky simulated data, we perform a joint analysis of a $1^\circ$ resolution diffuse map at 408 MHz and multi-band 21cm global signal data with $30^\circ$ resolution under different assumptions about 1) noise levels in the maps, 2) sky coverage, and 3) synchrotron spectral index information. For our fiducial scenario in which the global signal experiment has a 50 mK noise rms per coarse pixel in each of 20 frequency bins between 50 -- 150 MHz, we find that the notional Haslam flux scale factors can be recovered in most (but not all) sub-regions of the sky to an accuracy of $\pm 2 \%$. In all cases we are able to rectify the sky map to within $\sim 5$ K of the true brightness temperature.