High Resolution IRAS Maps and IR Emission of M31 --- II. Diffuse Component and Interstellar Dust

Abstract

Large-scale dust heating and cooling in the diffuse medium of M31 is studied using the HiRes IRAS maps in conjunction with UV, optical (UBV) and the HI maps. A dust heating/cooling model is developed based on a radiative transfer model which assumes a `Sandwich' configuration of dust and stars and takes fully into account the effect of scattering of dust grains. The model is applied to a complete sample of 'cells' (small areas of size 2'× 2'), generated from the above maps. The sample covers the M31 disk in the galactocentric radius range 2 --- 14 kpc, and includes only the cells for which the contribution of the discrete sources to the 60μ m surface brightness is negligible (< 20\%). This effectively excludes most of the bright arm regions from our analysis. We find that: (1) The mean optical depth (viewed from the inclination angle of 77) increases with radius from τV 0.7 at r=2kpc outwards, reaches a peak of ~1.6 near 10kpc, and stays quite flat out to 14kpc, where the signal falls below the 5sigma level. (2) A correlation between τV and HI surface density is suggested by the similarity between their radial profiles. Significant differences are found between the radial profiles of the H2 gas (estimated from CO) and of the dust (from τV), which are most probably due to the large uncertainty in the CO-to-H2 conversion factor, and to the under-representation of H2-rich regions in the sample of cells of diffuse regions. (3) The τV / N(HI) ratio decreases with increasing radius in the disk of M31, with an exponential law fit yielding an e-folding scale length of 9.6 0.4 kpc. (4) The optical depth adjusted for this gradient, τV,c, is strongly and linearly correlated with N(HI) over one and a half order of magnitude of column density, indicating that at a given

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