Multi-wavelength Stellar Polarimetry of the Filamentary Cloud IC5146: I. Dust Properties

Abstract

We present optical and near-infrared stellar polarization observations toward the dark filamentary clouds associated with IC5146. The data allow us to investigate the dust properties (this paper) and the magnetic field structure (Paper II). A total of 2022 background stars were detected in Rc-, i'-, H-, and/or K-bands to AV 25 mag. The ratio of the polarization percentage at different wavelengths provides an estimate of λmax, the wavelength of peak polarization, which is an indicator of the small-size cutoff of the grain size distribution. The grain size distribution seems to significantly change at AV 3 mag, where both the average and dispersion of PRc/PH decrease. In addition, we found λmax 0.6-0.9 μm for AV>2.5 mag, which is larger than the 0.55 μm in the general ISM, suggesting that grain growth has already started in low AV regions. Our data also reveal that polarization efficiency (PE Pλ/AV) decreases with AV as a power-law in Rc-, i'-, and K-bands with indices of -0.710.10, -1.230.10 and -0.530.09. However, H-band data show a power index change; the PE varies with AV steeply (index of -0.950.30) when AV < 2.880.67 mag but softly (index of -0.250.06) for greater AV values. The soft decay of PE in high AV regions is consistent with the Radiative Aligned Torque model, suggesting that our data trace the magnetic field to AV 20 mag. Furthermore, the breakpoint found in H-band is similar to the AV where we found the PRc/PH dispersion significantly decreased. Therefore, the flat PE-AV in high AV regions implies that the power index changes result from additional grain growth.