ISO [C II] 158 micron, [O I] 63 micron, and H_2 9 and 17 micron observations are presented of the reflection nebula Ced 201, which is a photon-dominated region illuminated by a B9.5 star with a color temperature of 10,000 K (a cool PDR). In combination with ground based [C I] 609 micron, CO, 13CO, CS and HCO+ data, the carbon budget and physical structure of the reflection nebula are constrained. The obtained data set is the first one to contain all important cooling lines of a cool PDR, and allows a comparison to be made with classical PDRs. To this effect one- and three-dimensional PDR models are presented which incorporate the physical characteristics of the source, and are aimed at understanding the dominant heating processes of the cloud. The contribution of very small grains to the photo-electric heating rate is estimated from these models and used to constrain the total abundance of PAHs and small grains. Observations of the pure rotational H_2 lines with ISO, in particular the S(3) line, indicate the presence of a small amount of very warm, approximately 330 K, molecular gas. This gas cannot be accommodated by the presented models

Hogerheijde, M R

Jansen, D J

Kemper, C

Spaans, M

Tielens, A G G M

Van Dishoeck, E F

Infrared Space Observatory (ISO) [C II] 158 μm, [O I] 63 μm, and H2 9 and 17 μm observations are presented of the reflection nebula Ced 201, which is a photon-dominated region (PDR) illuminated by a B9.5 star with a color temperature of 10,000 K (a cool PDR). In combination with ground-based [C I] 609 μm, CO, 13CO, CS, and HCO+ data, the carbon budget and physical structure of the reflection nebula are constrained. The obtained data set is the first one to contain all important cooling lines of a cool PDR and allows a comparison to be made with classical PDRs. To this effect one- and three-dimensional PDR models are presented that incorporate the physical characteristics of the source and are aimed at understanding the dominant heating processes of the cloud. The contribution of very small grains to the photoelectric heating rate is estimated from these models and is used to constrain the total abundance of polycyclic aromatic hydrocarbons and small grains. Observations of the pure rotational H2 lines with ISO, in particular the S(3) line, indicate the presence of a small amount of very warm ∼ 330 K molecular gas. This gas cannot be accommodated by the presented models

Kemper, Ciska

Spaans, Marco

Jansen, David J.

Hogerheijde, Michiel R.

Van Dishoeck, Ewine F.

Tielens, Alexander G G M

The University of Manchester - Institutional Repository

Far-infrared and submillimeter observations and physical models of the reflection nebula Cederblad 201

Kemper, C.

Spaans, M.

Jansen, D.J.

Hogerheijde, M.R.

Dishoeck, E.F. van

Tielens, A.G.G.M.

Leiden University Scholary Publications

Far-infrared and submillimeter observations and physical models of the reection nebula Cederblad 201

Jansen, DJ

Hogerheijde, MR

van Dishoeck, EF

Tielens, AGGM

University of Groningen

Infrared Space Observatory (ISO) CC nl 158 mu m, [O I] 63 mu m, and H-2 9 and 17 mu m observations are presented of the reflection nebula Ced 201, which is a photon-dominated region (PDR) illuminated by a B9.5 star with a color temperature of 10,000 K (a cool PDR). In combination with ground-based [C I] 609 mu m, CO, (CO)-C-13, CS, and HCO+ data, the carbon budget and physical structure of the reflection nebula are constrained. The obtained data set is the first one to contain all important cooling lines of a cool PDR and allows a comparison to be made with classical PDRs, To this effect one- and three-dimensional PDR models are presented that incorporate the physical characteristics of the source and are aimed at understanding the dominant heating processes of the cloud. The contribution of very small grains to the photoelectric heating rate is estimated from these models and is used to constrain the total abundance of polycyclic aromatic hydrocarbons and small grains. Observations of the pure rotational H-2 lines with ISO, in particular the S(3) line, indicate the presence of a small amount of very warm similar to 330 K molecular gas. This gas cannot be accommodated by the presented models.</p

ARTS repository - University of Groningen

Infrared Space Observatory (ISO) CC nl 158 mu m, [O I] 63 mu m, and H-2 9 and 17 mu m observations are presented of the reflection nebula Ced 201, which is a photon-dominated region (PDR) illuminated by a B9.5 star with a color temperature of 10,000 K (a cool PDR). In combination with ground-based [C I] 609 mu m, CO, (CO)-C-13, CS, and HCO+ data, the carbon budget and physical structure of the reflection nebula are constrained. The obtained data set is the first one to contain all important cooling lines of a cool PDR and allows a comparison to be made with classical PDRs, To this effect one- and three-dimensional PDR models are presented that incorporate the physical characteristics of the source and are aimed at understanding the dominant heating processes of the cloud. The contribution of very small grains to the photoelectric heating rate is estimated from these models and is used to constrain the total abundance of polycyclic aromatic hydrocarbons and small grains. Observations of the pure rotational H-2 lines with ISO, in particular the S(3) line, indicate the presence of a small amount of very warm similar to 330 K molecular gas. This gas cannot be accommodated by the presented models

NARCIS 

University of Groningen Research Database

https://scholarlypublications.universiteitleiden.nl/access/item%3A3137535/download