NIKA-2 observations of starless cores in Taurus and Perseus

Dusty starless cores play an important role in regulating the initial phases of the formation of stars and planets. In their interiors, dust grains coagulate and ice mantles form, thereby changing the millimeter emissivities and hence the ability to cool. We mapped four regions with more than a dozen cores in the nearby Galactic filaments of Taurus and Perseus using the NIKA-2 camera at the IRAM 30-meter telescope. Combining the 1mm to 2mm flux ratio maps with dust temperature maps from Herschel allowed to create maps of the dust emissivity index beta1,2 at resolutions of 2430 and 5600a.u. in Taurus and Perseus, respectively. Here, we study the variation with total column densities and environment. Beta1,2 values at the core centers (Av=12-19mag) vary significantly between ~1.1 and 2.3. Several cores show a strong rise of beta1,2 from the outskirts at ~4mag to the peaks of optical extinctions, consistent with the predictions of grain models and the gradual build-up of ice mantles on coagulated grains in the dense interiors of starless cores.