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

TL;DR

This study maps and analyzes the variations of the dust emissivity spectral index in the inner Galactic plane using Hi-GAL data, revealing a range of spectral indices and confirming an inverse correlation with dust temperature.

Contribution

First to analyze dust emissivity variations at sub-degree resolution in the inner Galactic plane using combined Herschel and IRIS data.

Findings

Spectral index varies from 1.8 to 2.6 for temperatures 14-23 K.

Median spectral index is 2.3 across both fields.

Inverse correlation between spectral index and dust temperature is confirmed.

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 \mu m, SPIRE 250 \mu m, 350 \mu m, and 500 \mu m data, and the IRIS 100 \mu 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{\deg} and l=59{\deg}. Applying two different methods, we determine both dust temperature and emissivity spectral index between 100 and 500 \mu 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 \mu m, while the median dust temperatures are equal to 19.1 K and 16.0 K in the l=30{\deg} and l=59{\deg} field, respectively. Statistically, we do not see any significant deviations in the spectra from a power law emissivity between 100 and 500 \mu m. We confirm the existence of an inverse correlation between the emissivity spectral index and dust temperature, found in previous analyses.