Observational 5-20μm Interstellar Extinction Curves Toward Star-Forming Regions Derived from Spitzer IRS Spectra

Abstract

Using Spitzer Infrared Spectrograph observations of G0--M4 III stars behind dark clouds, I construct 5-20μm empirical extinction curves for 0.3≤ AK<7, which is equivalent to AV between ≈ 3 and 50. For AK<1 the curve appears similar to the mathis90 diffuse interstellar medium extinction curve, but with a greater degree of extinction. For AK>1, the curve exhibits lower contrast between the silicate and absorption continuum, developes ice absorption, and lies closer to the wd01 RV=5.5 case B curve, a result which is consistent with that of flaherty07 and chiar07. Recently work using Spitzer Infrared Array Camera data by chapman08 independently reaches a similar conclusion, that the shape of the extinction curve changes as a function of increasing AK. By calculating the optical depths of the 9.7μm silicate and 6.0, 6.8, and 15.2 μm ice features, I determine that a process involving ice is responsible for the changing shape of the extinction curve and speculate that this process is coagulation of ice-mantled grains rather than ice-mantled grains alone.