Accretion and Diffusion Timescales in Sheets and Filaments

(2) U of Michigan); Fabian Heitsch (1); Lee Hartmann (2) ((1) UNC Chapel Hill

arxiv: 1406.2191 · v1 · pith:4FMWXSPHnew · submitted 2014-06-09 · 🌌 astro-ph.GA

Accretion and Diffusion Timescales in Sheets and Filaments

Fabian Heitsch (1) , Lee Hartmann (2) ((1) UNC Chapel Hill , (2) U of Michigan) This is my paper

classification 🌌 astro-ph.GA

keywords diffusiontimescalesaccretionturbulentambipolarfilamentssheetsbecome

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A comparison of accretion and (turbulent) magnetic diffusion timescales for sheets and filaments demonstrates that dense star-forming clouds generally will -- under realistic conditions -- become supercritical due to mass accretion on timescales at least an order of magnitude shorter than ambipolar and/or turbulent diffusion timescales. Thus, ambipolar or turbulent diffusion -- while present -- is unlikely to control the formation of cores and stars.

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Accretion and Diffusion Timescales in Sheets and Filaments

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