Herschel Measurements of Molecular Oxygen in Orion

Paul F. Goldsmith; René Liseau; Tom A. Bell; John H. Black; Jo-Hsin Chen; David Hollenbach; Michael J. Kaufman; Di Li; Dariusz C. Lis; Gary Melnick; David Neufeld; Laurent Pagani; Ronald Snell; Arnold O. Benz; Edwin Bergin; Simon Bruderer; Paola Caselli; Emmanuel Caux; Pierre Encrenaz; Edith Falgarone; Maryvonne Gerin; Javier R. Goicoechea; Åke Hjalmarson; Bengt Larsson; Jacques Le Bourlot; Franck Le Petit; Massimo De Luca; Zsofia Nagy; Evelyne Roueff; Aage Sandqvist; Floris van der Tak; Ewine F. Van Dishoeck; Charlotte Vastel; Serena Viti; Umut Yıldız

HAL: hal-00627666, version 1

arXiv: 1108.0441

ADS Bibliographic id: 2011ApJ...737...96G

DOI: 10.1088/0004-637X/737/2/96

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Herschel Measurements of Molecular Oxygen in Orion
Goldsmith P. F., Liseau R., Bell T. A., Black J. H., Chen J.-H., Hollenbach D., Kaufman M. J., Li D., Lis D. C., Melnick G. et al
The Astrophysical Journal 737 (2011) 96 - http://hal.archives-ouvertes.fr/hal-00627666

Publication type:

Article in peer-reviewed journal

Subject:

Sciences of the Universe/Astrophysics/Galactic Astrophysics

Physics/Astrophysics/Galactic Astrophysics

Title:

Herschel Measurements of Molecular Oxygen in Orion

Author(s):

Paul F. Goldsmith, René Liseau ¹, Tom A. Bell, John H. Black, Jo-Hsin Chen, David Hollenbach, Michael J. Kaufman, Di Li, Dariusz C. Lis, Gary Melnick, David Neufeld, Laurent Pagani ², Ronald Snell, Arnold O. Benz, Edwin Bergin ³, Simon Bruderer, Paola Caselli ⁴, Emmanuel Caux ⁵, Pierre Encrenaz ², Edith Falgarone ², Maryvonne Gerin ², Javier R. Goicoechea ², Åke Hjalmarson, Bengt Larsson, Jacques Le Bourlot ⁶, Franck Le Petit ^6, 7, Massimo De Luca ², Zsofia Nagy, Evelyne Roueff ⁶, Aage Sandqvist, Floris van der Tak ^8, 9, Ewine F. Van Dishoeck, Charlotte Vastel ⁵, Serena Viti, Umut Yıldız

Laboratory:

1:	Chalmers University of Technology, Department Radio and Space Science

	Chalmers University of Technology

	41296 Gothenburg

	Sweden

2:	Laboratoire d'Etude du Rayonnement et de la Matière en Astrophysique (LERMA)

	http://lerma.obspm.fr/

	CNRS : UMR8112 – INSU – Observatoire de Paris – Université Pierre et Marie Curie [UPMC] - Paris VI – Université de Cergy Pontoise – Ecole normale supérieure de Paris - ENS Paris

	61, avenue de l'Observatoire - 75014 PARIS

	France

3:	Harvard-Smithsonian Center for Astrophysics

	Harvard-Smithsonian Center for Astrophysics

	Cambridge MA 02138, USA

	France

4:	Osservatorio Astrofisico di Arcetri (INAF)

	INFN

	L.go E.Fermi - 5 I-50125 Firenze - Italia

	France

5:	Centre d'étude spatiale des rayonnements (CESR)

	http://www.cesr.fr

	CNRS : UMR5187 – Observatoire Midi-Pyrénées – INSU – Université Paul Sabatier [UPS] - Toulouse III

	9 Av du colonel Roche - BP 4346 31028 TOULOUSE CEDEX 4

	France

6:	Laboratoire Univers et Théories (LUTH)

	http://luth.obspm.fr/

	CNRS : UMR8102 – INSU – Observatoire de Paris – Université Paris VII - Paris Diderot

	5 place Jules Janssen 92195 Meudon cedex

	France

7:	Onsala Space Observatory (OSO)

	Chalmers University - Göteborg

	SE 43992 - Onsala Sweden

	Sweden

8:	Institute for Space Research Netherlands (SRON)

	http://www.sron.nl/

	SRON Netherlands Institute for Space Research

	Landleven 12, 9747AD Groningen, The Netherlands

	Netherlands

9:	Max-Planck-Institut für Radioastronomie (MPIFR)

	http://www.mpifr-bonn.mpg.de/

	Max-Planck-Institut

	Auf dem Hügel 69 D-53121 Bonn

	Germany

Abstract:

We report observations of three rotational transitions of molecular oxygen (O2) in emission from the H2 Peak 1 position of vibrationally excited molecular hydrogen in Orion. We observed the 487 GHz, 774 GHz, and 1121 GHz lines using the Heterodyne Instrument for the Far Infrared on the Herschel Space Observatory, having velocities of 11 km s-1 to 12 km s-1 and widths of 3 km s-1. The beam-averaged column density is N(O2) = 6.5 × 1016 cm-2, and assuming that the source has an equal beam-filling factor for all transitions (beam widths 44, 28, and 19''), the relative line intensities imply a kinetic temperature between 65 K and 120 K. The fractional abundance of O2 relative to H2 is (0.3-7.3) × 10-6. The unusual velocity suggests an association with a ~5'' diameter source, denoted Peak A, the Western Clump, or MF4. The mass of this source is ~10 M sun and the dust temperature is >=150 K. Our preferred explanation of the enhanced O2 abundance is that dust grains in this region are sufficiently warm (T >= 100 K) to desorb water ice and thus keep a significant fraction of elemental oxygen in the gas phase, with a significant fraction as O2. For this small source, the line ratios require a temperature >=180 K. The inferred O2 column density sime5 × 1018 cm-2 can be produced in Peak A, having N(H2) ~= 4 × 1024 cm-2. An alternative mechanism is a low-velocity (10-15 km s-1) C-shock, which can produce N(O2) up to 1017 cm-2. Herschel is an ESA space observatory with science instruments provided by European-led Principal Investigator consortia and with important participation from NASA.

Fulltext language:

English

Journal:

The Astrophysical Journal

Audience:

international

Publication date:

2011-08

Volume:

737

Page, identifiant, ...:

Keyword(s):

astrochemistry – ISM: abundances – ISM: individual objects: Orion – ISM: molecules – submillimeter: ISM

Fulltext link:

http://fr.arXiv.org/abs/1108.0441


hal-00627666, version 1
http://hal.archives-ouvertes.fr/hal-00627666
oai:hal.archives-ouvertes.fr:hal-00627666
From: Laurent Pagani <>
Submitted on: Thursday, 29 September 2011 12:01:48
Updated on: Thursday, 29 September 2011 12:01:48