Optical Properties of Interstellar Dust around the Orion A Molecular Cloud

TL;DR

This study investigates the optical properties of interstellar dust around Orion A, revealing a dominant silicate composition and an upper grain size cutoff of about 0.3 micrometers, consistent with dust models.

Contribution

It provides new constraints on dust grain size distribution and composition around Orion A using optical and near-infrared photometry combined with modeling.

Findings

Silicate grains dominate over 93% of dust composition.

Upper cutoff radius of dust grains is approximately 0.3 micrometers.

Derived extinction ratios are consistent with dust model predictions.

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 ($d \simeq 400\ \rm{pc}$). 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 $JHK_{S}$ 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 $\simeq 0.3$ $\rm{\mu}$m, 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 $R_{V}$ from the observed extinction of $A_{V}$ 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 $R_{V}$ is almost consistent with those derived from the color excess ratios.