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Evolution of the Density PDF in Star-forming Clouds: The Role of Gravity

Etienne Jaupart, Gilles Chabrier

2020The Astrophysical Journal Letters36 citationsDOIOpen Access PDF

Abstract

Abstract We derive an analytical theory of the PDF of density fluctuations in supersonic turbulence in the presence of gravity in star-forming clouds. The theory is based on a rigorous derivation of a combination of the Navier–Stokes continuity equations for the fluid motions and the Poisson equation for the gravity. It extends previous approaches, first by including gravity and second by considering the PDF as a dynamical system, not a stationary one. We derive the transport equations of the density PDF, characterize its evolution, and determine the density threshold above which gravity strongly affects and eventually dominates the dynamics of turbulence. We demonstrate the occurrence of t wo power-law tails in the PDF, with two characteristic exponents, corresponding to two different stages in the balance between turbulence and gravity. Another important result of this study is to provide a procedure to relate the observed column density PDFs to the corresponding volume density PDFs. This allows us to infer, from the observation of column densities, various physical parameters characterizing molecular clouds, notably the virial parameter. Furthermore, the theory offers the possibility to date the clouds in units of t coll , the time since a statistically significant fraction of the cloud started to collapse. The theoretical results and diagnostics reproduce very well numerical simulations and observations of star-forming clouds. The theory provides a sound theoretical foundation and quantitative diagnostics to analyze observations or numerical simulations of star-forming regions and to characterize the evolution of the density PDF in various regions of molecular clouds.

Topics & Concepts

Statistical physicsPhysicsTurbulenceSupersonic speedProbability density functionVirial theoremClassical mechanicsMechanicsPoisson distributionDetailed balanceKinetic theoryGravitationShock waveEuler equationsTime evolutionNumber densityNon-equilibrium thermodynamicsMathematical modelMoment (physics)Astrophysics and Star Formation StudiesAdvanced Physical and Chemical Molecular InteractionsDust and Plasma Wave Phenomena
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