Optical Properties of Interstellar Dust around the Orion A Molecular Cloud

Abstract

We have studied optical properties of interstellar dust around the Orion A molecular cloud to investigate the size distribution and the composition of dust grains. Orion A is one of the most studied molecular clouds in the solar vicinity (d 400\ pc). In this paper, we used optical and near-infrared photometric data. The optical data were obtained by BVRI bands imaging observations. The near-infrared data consisting of JHKS bands were taken from 2MASS point source catalog. We produced some color excess maps around Orion A, and measured their ratios such as E(R-I)/E(B-V). In order to investigate dust properties, we compared the observed ratios with results of simulation performed by Naoi T. et al. (2021) who calculated the extinction in the optical to near-infrared wavelengths based on a standard dust model; they assumed a power-law grain-size distribution with an upper cutoff radius and assumed graphite and silicate as dominant components. As a result, we found that the upper cutoff radius around Orion A is 0.3 μm, and silicate predominates compared with graphite (with the fraction of silicate grater than 93 %). In addition, we further derived the total-to-selective extinction ratio RV from the observed extinction of AV and the color excess E(B-V), and compared it with the model calculations. Dust properties (i.e., the upper cutoff radius and the ratio of graphite/silicate) derived from RV is almost consistent with those derived from the color excess ratios.