Variations of the spectral index of dust emissivity from Hi-GAL observations of the Galactic plane

Abstract

Variations in the dust emissivity are critical for gas mass determinations derived from far-infrared observations, but also for separating dust foreground emission from the Cosmic Microwave Background (CMB). Hi-GAL observations allow us for the first time to study the dust emissivity variations in the inner regions of the Galactic plane at resolution below 1 degree. We present maps of the emissivity spectral index derived from the combined Herschel PACS 160 μ m, SPIRE 250 μ m, 350 μ m, and 500 μ m data, and the IRIS 100 μ m data, and we analyze the spatial variations of the spectral index as a function of dust temperature and wavelength in the two Science Demonstration Phase Hi-GAL fields, centered at l=30 and l=59. Applying two different methods, we determine both dust temperature and emissivity spectral index between 100 and 500 μ m, at an angular resolution of 4'. Combining both fields, the results show variations of the emissivity spectral index in the range 1.8-2.6 for temperatures between 14 and 23 K. The median values of the spectral index are similar in both fields, i.e. 2.3 in the range 100-500 μ m, while the median dust temperatures are equal to 19.1 K and 16.0 K in the l=30 and l=59 field, respectively. Statistically, we do not see any significant deviations in the spectra from a power law emissivity between 100 and 500 μ m. We confirm the existence of an inverse correlation between the emissivity spectral index and dust temperature, found in previous analyses.