Extragalactic magnetism with SOFIA (SALSA Legacy Program) -- V: First results on the magnetic field orientation of galaxies

Abstract

We present the analysis of the magnetic field (B-field) structure of galaxies measured with far-infrared (FIR) and radio (3 and 6 cm) polarimetric observations. We use the first data release of the Survey on extragALactic magnetiSm with SOFIA (SALSA) of 14 nearby (<20 Mpc) galaxies with resolved (5 arcsec-18 arcsec; 90 pc--1 kpc) imaging polarimetric observations using HAWC+/SOFIA from 53 to 214 . We compute the magnetic pitch angle (B) profiles as a function of the galactrocentric radius. We introduce a new magnetic alignment parameter (ζ) to estimate the disordered-to-ordered B-field ratio in spiral B-fields. We find FIR and radio wavelengths to not generally trace the same B-field morphology in galaxies. The B profiles tend to be more ordered with galactocentric radius in radio (ζ6cm = 0.930.03) than in FIR (ζ154μ m = 0.840.14). For spiral galaxies, FIR B-fields are 2-75\% more turbulent than the radio B-fields. For starburst galaxies, we find that FIR polarization is a better tracer of the B-fields along the galactic outflows than radio polarization. Our results suggest that the B-fields associated with dense, dusty, turbulent star-forming regions, those traced at FIR, are less ordered than warmer, less-dense regions, those traced at radio, of the interstellar medium. The FIR B-fields seem to be more sensitive to the activity of the star-forming regions and the morphology of the molecular clouds within a vertical height of few hundred pc in the disk of spiral galaxies than the radio B-fields.