A New Constraint on the Relative Disorder of Magnetic Fields between Neutral Interstellar Medium Phases

Abstract

Utilizing Planck polarized dust emission maps at 353 GHz and new large-area maps of the neutral hydrogen (HI) cold neutral medium (CNM) fraction (fCNM), we investigate the relationship between dust polarization fraction (p353) and fCNM in the diffuse high latitude (|b|>30) sky. We find that the correlation between p353 and fCNM is qualitatively distinct from the p353-HI column density (NH\,I) relationship. At low column densities (NH\,I<4×1020~cm-2) where p353 and NH\,I are uncorrelated, there is a strong positive p353-fCNM correlation. We fit the p353-f CNM correlation with data-driven models to constrain the degree of magnetic field disorder between phases along the line-of-sight. We argue that an increased magnetic field disorder in the warm neutral medium (WNM) relative to the CNM best explains the positive p353-fCNM correlation in diffuse regions. Modeling the CNM-associated dust column as being maximally polarized, with a polarization fraction p CNM 0.2, we find that the best-fit mean polarization fraction in the WNM-associated dust column is 0.22p CNM. The model further suggests that a significant f CNM-correlated fraction of the non-CNM column (an additional ~18.4% of the HI mass on average) is also more magnetically ordered, and we speculate that the additional column is associated with the unstable medium (UNM). Our results constitute a new large-area constraint on the average relative disorder of magnetic fields between the neutral phases of the ISM, and are consistent with the physical picture of a more magnetically aligned CNM column forming out of a disordered WNM.

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