We present a new set of high-resolution dust extinction maps of the nearby and essentially starless Pipe Nebula molecular cloud. The maps were constructed from a concerted deep near-infrared imaging survey with the ESO-VLT, ESO-NTT, CAHA 3.5 m telescopes, and 2MASS data. The new maps have a resolution three times higher than the previous extinction map of this cloud by Lombardi et al. and are able to resolve structures down to 2600 AU. We detect 244 significant extinction peaks across the cloud. These peaks have masses between 0.1 and 18.4 M ☉, diameters between 1.2 and 5.7 × 104 AU (0.06 and 0.28 pc), and mean densities of about 104 cm–3, all in good agreement with previous results. From the analysis of the mean surface density of companions we find a well-defined scale near 1.4 × 104 AU below which we detect a significant decrease in structure of the cloud. This scale is smaller than the Jeans length calculated from the mean density of the peaks. The surface density of peaks is not uniform but instead it displays clustering. Extinction peaks in the Pipe Nebula appear to have a spatial distribution similar to the stars in Taurus, suggesting that the spatial distribution of stars evolves directly from the primordial spatial distribution of high-density material.

Deep near-infrared survey of the Pipe Nebula. II. Data, methods, and dust extinction maps / C.G. Román Zúñiga, J.F. Alves, C.J. Lada, M. Lombardi. - In: THE ASTROPHYSICAL JOURNAL. - ISSN 0004-637X. - 725:2(2010 Dec), pp. 2232-2250. [10.1088/0004-637X/725/2/2232]

Deep near-infrared survey of the Pipe Nebula. II. Data, methods, and dust extinction maps

M. Lombardi
Ultimo
2010

Abstract

We present a new set of high-resolution dust extinction maps of the nearby and essentially starless Pipe Nebula molecular cloud. The maps were constructed from a concerted deep near-infrared imaging survey with the ESO-VLT, ESO-NTT, CAHA 3.5 m telescopes, and 2MASS data. The new maps have a resolution three times higher than the previous extinction map of this cloud by Lombardi et al. and are able to resolve structures down to 2600 AU. We detect 244 significant extinction peaks across the cloud. These peaks have masses between 0.1 and 18.4 M ☉, diameters between 1.2 and 5.7 × 104 AU (0.06 and 0.28 pc), and mean densities of about 104 cm–3, all in good agreement with previous results. From the analysis of the mean surface density of companions we find a well-defined scale near 1.4 × 104 AU below which we detect a significant decrease in structure of the cloud. This scale is smaller than the Jeans length calculated from the mean density of the peaks. The surface density of peaks is not uniform but instead it displays clustering. Extinction peaks in the Pipe Nebula appear to have a spatial distribution similar to the stars in Taurus, suggesting that the spatial distribution of stars evolves directly from the primordial spatial distribution of high-density material.
ISM: clouds ; infrared: ISM ; stars: formation
Settore FIS/05 - Astronomia e Astrofisica
dic-2010
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/2434/169868
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