Spectroscopy of Hydrocarbon Grains toward the Galactic Center and Quintuplet Cluster

Our view of the Galactic center (GC) is affected by extinction from both diffuse interstellar medium (ISM) dust and dense molecular clouds along the line of sight. The enormous visual extinction present toward the center of our Galaxy (∼31 magnitudes) necessitates a study of the interstellar dust properties as well as an investigation into the distribution of the different dust components. We have built upon the historic spectroscopy of Willner et al. (1979), Butchart et al. (1986), and McFadzean et al. (1989) in order to investigate the distribution of these dust components across the GC field. Specifically, we employ spectroscopy in the 3 μ m region to investigate absorption features at 3.0 μ m and 3.4 μ m in lines of sight toward the GC central cluster and the Quintuplet cluster to the northeast. The 3.4 μ m feature is one of the primary spectral signatures of the organic component of interstellar dust and is, to date, only observed in the cold diffuse interstellar medium. The 3.0 μ m ice feature is carried by dense molecular cloud material, and can therefore be used to loosely trace the distribution of such material across the GC field. By obtaining spectra for multiple sightlines we have been able to deconvolve the diffuse ISM and dense molecular cloud components. Our study shows that differences exist in the spectra of relatively nearby lines of sight in the Galactic center central cluster. The depth of the 3.0 μ m water‐ice feature varies by a factor of almost 5 across a 2 parsec (in projection) region, perhaps re.ecting the clumpy nature of the dense clouds. In addition, we found that the 3.4 μ m hydrocarbon feature varies in depth across the areas studied toward the central cluster, whereas the depth is relatively constant toward the Quintuplet cluster. This is likely a reflection of the distribution of extinction from the foreground diffuse ISM. Our ground‐based and space‐based spectroscopy reveals differences in absorption features in the 3 and 6 μ m regions between sightlines toward the GC central cluster and those toward the Quintuplet cluster. While the 3 μ m spectra of both regions show a broad absorption feature blueward of the 3.4 μ m absorption, only the Quintuplet spectra show a distinct absorption feature at 3.28 μ m. This feature is indicative of the presence of polycyclic aromatic hydrocarbons (PAHs) along the line of sight. The Quintuplet‐proper sources have 6 μ m spectra that are markedly different than that of GC IRS 7 in the central cluster, and instead strongly resemble the spectra seen toward dusty late‐type carbon‐class (WC)Wolf‐Rayet stars. This is the first hint of some spectroscopic similarity between the Quintuplet sources and dusty WC stars.