Remarkable symmetries in the Milky Way disk's magnetic field

Abstract

Using a new, expanded compilation of extragalactic source Faraday rotation measures (RM) we investigate the broad underlying magnetic structure of the Galactic disk at latitudes |b| 15 over all longitudes l, where our total number of RM's in this low-latitude range of the Galactic sky is comparable to those in the combined Canadian Galactic Plane Survey(CGPS) at |b| < 4 and the Southern Galactic Plane (SGPS) |b| < 1.5 survey. We report newly revealed, remarkably coherent patterns of RM at |b| 15 from l 270 to 90 and RM(l) features of unprecedented clarity that replicate in l with opposite sign on opposite sides of the Galactic center. They confirm a highly patterned bisymmetric field structure toward the inner disc, an axisymmetic pattern toward the outer disc, and a very close coupling between the CGPS/SGPS RM's at |b| 3 ("mid-plane") and our new RM's up to |b| 15 ("near-plane"). Our analysis also shows the approximate z-height -- the vertical height of the coherent component of the disc field above the Galactic disc's mid-plane -- to be 1.5kpc out to 6 kpc from the Sun. This identifies the approximate height of the transition layer to the halo field structure. We find no RM sign change across the plane within |b| 15 in any longitude range. The prevailing disc field pattern, and its striking degree of large scale ordering confirm that our side of the Milky Way has a very organized underlying magnetic structure, for which the inward spiral pitch angle is 5.5\, 1 at all |b| up to 12 in the inner semicircle of Galactic longitudes. It decreases to 0 toward the anticentre.