Analogues of Cores and Stars in Simulated Molecular Clouds Conferences

abstract

• AbstractWe use images derived from collapsing, turbulent molecular cloud simulations without sinks to explore the effects of finite image angular resolution and noise on the derived clump mass function. These effects randomly perturb the clump masses, producing a lognormal clump mass function with a Salpeter-like high mass end. We show that the characteristic break mass of the simulated clump mass functions changes with the angular resolution of the images in a way that is entirely consistent with the observations. We also present some cautionary tales regarding sink particles and highlight the need to ensure that sinks actually correspond to distinct collapsing objects. We test several popular numerical sink criteria in the literature and compare to converged, non-sink results.

authors

• Wadsley, James
• Reid, Michael
• Qamar, Farid
• Sills, Alison
• Petitclerc, Nicholas

status

• published 

publication date

• May 2010

has subject area

• 0201 Astronomical and Space Sciences (FoR)

published in

• Proceedings of the International Astronomical Union  Journal

presented at event

• 270th Symposium of the International-Astronomical-Union on Computational Star Formation  Conference

keywords

• ACCRETION
• Astronomy & Astrophysics
• FRAGMENTATION
• IMPLEMENTATION
• ISM: structure
• Mathematics
• Mathematics, Interdisciplinary Applications
• Physical Sciences
• SINK PARTICLES
• SYSTEMS
• Science & Technology
• methods: data analysis
• methods: numerical
• stars: formation
• stars: mass function
• submillimeter

Digital Object Identifier (DOI)

• 10.1017/s1743921311000287

International Standard Book Number (ISBN) 13

• 978-0-52176-643-2

start page

• 129

end page

• 132

volume

• 6

issue

• S270