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Filamentary structures and compact objects in the Aquila and Polaris clouds observed by Herschel

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arxiv 1005.3115 v1 pith:64ECAMMZ submitted 2010-05-18 astro-ph.GA

Filamentary structures and compact objects in the Aquila and Polaris clouds observed by Herschel

classification astro-ph.GA
keywords herschelaquilacoresfilamentspolarisappeararcseccompact
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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Our PACS and SPIRE images of the Aquila Rift and part of the Polaris Flare regions, taken during the science demonstration phase of Herschel discovered fascinating, omnipresent filamentary structures that appear to be physically related to compact cores. We briefly describe a new multi-scale, multi-wavelength source extraction method used to detect objects and measure their parameters in our Herschel images. All of the extracted starless cores (541 in Aquila and 302 in Polaris) appear to form in the long and very narrow filaments. With its combination of the far-IR resolution and sensitivity, Herschel directly reveals the filaments in which the dense cores are embedded; the filaments are resolved and have deconvolved widths of 35 arcsec in Aquila and 59 arcsec in Polaris (9000 AU in both regions). Our first results of observations with Herschel enable us to suggest that in general dense cores may originate in a process of fragmentation of complex networks of long, thin filaments, likely formed as a result of an interplay between gravity, interstellar turbulence, and magnetic fields. To unravel the roles of the processes, one has to obtain additional kinematic and polarization information; these follow-up observations are planned.

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Cited by 2 Pith papers

Reviewed papers in the Pith corpus that reference this work. Sorted by Pith novelty score.

  1. Statistical analysis of the relative orientations between filaments and magnetic fields using Herschel and Planck data in star-forming regions

    astro-ph.GA 2026-06 unverdicted novelty 5.0

    Low-column-density filaments align parallel to magnetic fields while high-column-density wide filaments align perpendicular, with transition at roughly 0.8-8 x 10^21 cm^-2; projection effects analyzed statistically.

  2. Evolution of compressed clouds formed by filament coalescence. I. Oblique collisions

    astro-ph.GA 2026-05 unverdicted novelty 5.0

    Oblique filament collisions lead to gravitational collapse of the compressed cloud when post-collision |gravitational energy| exceeds kinetic plus thermal plus magnetic energies, with lower angles and lower velocities...