The Mid-Infrared Extinction Law in the Ophiuchus, Perseus, and Serpens Molecular Clouds

TL;DR

This study measures the mid-infrared extinction law in three molecular clouds, revealing grain growth with increasing density and identifying regional variations, thereby advancing understanding of dust properties in star-forming regions.

Contribution

It introduces a new technique for line-of-sight extinction measurement and maps the spatial variation of the extinction law as a function of column density.

Findings

Extinction law flattens with increasing density, indicating grain growth.

At 24 microns, observed extinction exceeds theoretical model predictions.

Identified a region in Perseus with anomalously high IRAC extinction law.

Abstract

We compute the mid-infrared extinction law from 3.6-24 microns in three molecular clouds: Ophiuchus, Perseus, and Serpens, by combining data from the "Cores to Disks" Spitzer Legacy Science program with deep JHKs imaging. Using a new technique, we are able to calculate the line-of-sight extinction law towards each background star in our fields. With these line-of-sight measurements, we create, for the first time, maps of the chi-squared deviation of the data from two extinction law models. Because our chi-squared maps have the same spatial resolution as our extinction maps, we can directly observe the changing extinction law as a function of the total column density. In the Spitzer IRAC bands, 3.6-8 microns, we see evidence for grain growth. Below $A_{K_s} = 0.5$, our extinction law is well-fit by the Weingartner & Draine (2001) $R_V = 3.1$ diffuse interstellar medium dust model. As the extinction increases, our law gradually flattens, and for $A_{K_s} >= 1$, the data are more consistent with the Weingartner & Draine $R_V = 5.5$ model that uses larger maximum dust grain sizes. At 24 microns, our extinction law is 2-4 times higher than the values predicted by theoretical dust models, but is more consistent with the observational results of Flaherty et al. (2007). Lastly, from our chi-squared maps we identify a region in Perseus where the IRAC extinction law is anomalously high considering its column density. A steeper near-infrared extinction law than the one we have assumed may partially explain the IRAC extinction law in this region.