Parsec-scale penetration of ultraviolet photons into molecular clouds - (C II) 158 micron mapping of W3, NGC 1977, and NGC 2023

Abstract

view Abstract Citations (108) References (80) Co-Reads Similar Papers Volume Content Graphics Metrics Export Citation NASA/ADS Parsec-Scale Penetration of Ultraviolet Photons into Molecular Clouds: [C ii] 158 Micron Mapping of W3, NGC 1977, and NGC 2023 Howe, J. E. ; Jaffe, D. T. ; Genzel, R. ; Stacey, G. J. Abstract We have mapped the spatial distribution of the 158 μm [C II] fine-structure line in the Galactic sources W3, NGC 1977, and NGC 2023. The emission arises from warm (100-300 K), dense (nH > 104 cm-3) photodissociation regions at the surface of molecular gas. In all three sources the emission extends over parsec scales or greater. For W3 and NGC 1977, where the UV source-molecular cloud geometry presents us with an edge-on view of the variation of [C II] intensity into the molecular gas, we have constructed two- dimensional models of the [C II] emission which include the effects of gas clumping and scattering by dust on the transport of UV photons. The observed [C II] distribution and intensity is well modeled by a clumpy or filamentary distribution to the molecular gas, with a clump-interclump gas density ratio of 102 or more, which allows deep penetration of carbon-ionizing UV photons into the clouds. The penetration of UV into clumped molecular clouds may also explain the extended far-IR continuum emission from these sources. The total luminosity of [C II] emission from a clumpy molecular cloud with adjacent or embedded OB stars can be as much as an order of magnitude higher than the [C II] luminosity of a uniform cloud. In addition, the extended penetration of UV into molecular clouds will affect the abundances of atomic and molecular species and increase the fractional ionization of interclump gas and UV-illuminated clump surfaces. Publication: The Astrophysical Journal Pub Date: May 1991 DOI: 10.1086/170034 Bibcode: 1991ApJ...373..158H Keywords: Galactic Radiation; Infrared Spectra; Interstellar Matter; Molecular Clouds; Nebulae; Ultraviolet Radiation; Astronomical Models; Fine Structure; Milky Way Galaxy; Molecular Gases; Photodissociation; Spatial Distribution; infrared: spectra; interstellar: matter; nebulae: individual (NGC 1977; NGC 2023; W3); Astrophysics; INFRARED: SPECTRA; INTERSTELLAR: MATTER; NEBULAE: INDIVIDUAL NGC NUMBER: NGC 1977; NEBULAE: INDIVIDUAL NGC NUMBER: NGC 2023; NEBULAE: INDIVIDUAL ALPHANUMERIC: W3 full text sources ADS | data products SIMBAD (3)