A radio-polarisation and rotation measure study of the Gum Nebula and its environment

Abstract

The Gum Nebula is 36 degree wide shell-like emission nebula at a distance of only 450 pc. It has been hypothesised to be an old supernova remnant, fossil HII region, wind-blown bubble, or combination of multiple objects. Here we investigate the magneto-ionic properties of the nebula using data from recent surveys: radio-continuum data from the NRAO VLA and S-band Parkes All Sky Surveys, and H-alpha data from the Southern H-Alpha Sky Survey Atlas. We model the upper part of the nebula as a spherical shell of ionised gas expanding into the ambient medium. We perform a maximum-likelihood Markov chain Monte-Carlo fit to the NVSS rotation measure data, using the H-halpha data to constrain average electron density in the shell ne. Assuming a latitudinal background gradient in RM we find ne=1.3+0.4-0.4 cm-3, angular radius φ outer=22.7+0.1-0.1 deg, shell thickness dr=18.5+1.5-1.4 pc, ambient magnetic field strength B0=3.9+4.9-2.2 μ G and warm gas filling factor f=0.3+0.3-0.1. We constrain the local, small-scale (~260 pc) pitch-angle of the ordered Galactic magnetic field to +7+44, which represents a significant deviation from the median field orientation on kiloparsec scales (~-7.2). The moderate compression factor X=6.0\,+5.1-2.5 at the edge of the H-alpha shell implies that the 'old supernova remnant' origin is unlikely. Our results support a model of the nebula as a HII region around a wind-blown bubble. Analysis of depolarisation in 2.3 GHz S-PASS data is consistent with this hypothesis and our best-fitting values agree well with previous studies of interstellar bubbles.