A Study of 90 GHz Dust Emissivity on Molecular Cloud and Filament Scales

Lowe, Ian; Mason, Brian; Bhandarkar, Tanay; Clark, S. E.; Devlin, Mark; Dicker, Simon R.; Duff, Shannon M.; Friesen, Rachel; Hacar, Alvaro; Hensley, Brandon; Mroczkowski, Tony; Naess, Sigurd; Romero, Charles; Sadavoy, Sarah; Salatino, Maria; et. al.

Abstract

Recent observations from the MUSTANG2 instrument on the Green Bank Telescope have revealed evidence of enhanced long-wavelength emission in the dust spectral energy distribution (SED) in the Orion Molecular Cloud (OMC) 2/3 filament on 25 '' (0.1 pc) scales. Here we present a measurement of the SED on larger spatial scales (map size 0.degrees 5-3 degrees or 3-20 pc), at somewhat lower resolution (120 '', corresponding to 0.25 pc at 400 pc) using data from the Herschel satellite and Atacama Cosmology Telescope (ACT). We then extend the 120 ''-scale investigation to other regions covered in the Herschel Gould Belt Survey (HGBS), specifically the dense filaments in the southerly regions of Orion A, Orion B, and Serpens-S. Our data set in aggregate covers approximately 10 deg(2), with continuum photometry spanning from 160 mu m to 3 mm. These OMC 2/3 data display excess emission at 3 mm, though less (10.9% excess) than what is seen at higher resolution. Strikingly, we find that the enhancement is present even more strongly in the other filaments we targeted, with an average excess of 42.4% and 30/46 slices showing an inconsistency with the modified blackbody to at least 4 sigma. Applying this analysis to the other targeted regions, we lay the groundwork for future high-resolution analyses. Additionally, we also consider a two-component dust model motivated by Planck results and an amorphous grain dust model. While both of these have been proposed to explain deviations in emission from a generic modified blackbody, we find that they have significant drawbacks, requiring many spectral points or lacking experimental data coverage.

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Título según WOS: A Study of 90 GHz Dust Emissivity on Molecular Cloud and Filament Scales
Título de la Revista: ASTROPHYSICAL JOURNAL
Volumen: 929
Número: 1
Editorial: IOP PUBLISHING LTD
Fecha de publicación: 2022
DOI:

10.3847/1538-4357/ac5d4f

Notas: ISI