Methods for Simulating the Heavy Core Instability

Jeffrey S. Oishi; Philip Chang

doi:10.1051/epjconf/20134606001

EPJ

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Proceedings

Open Access

EPJ Web of Conferences 46, 06001 (2013)
https://doi.org/10.1051/epjconf/20134606001

Methods for Simulating the Heavy Core Instability

Jeffrey S. Oishi¹^a and Philip Chang²

¹ Department of Astrophysics American Museum of Natural History Central Park West at 79th St New York, NY 10024 USA
² Department of Physics University of Wisconsin–Milwaukee 1900 E. Kenwood Blvd. Milwaukee, WI 53211 USA

^a e-mail: jsoishi@gmail.com

Abstract

Vortices have been proposed as the sites of planet formation, where dust collects and grows into planetesimals, the building blocks of planets. However, for very small dust particles that can be treated as a pressure-less fluid, we have recently discovered the “heavy core” instability, driven by the density gradient in the vortex. In order to understand the eventual outcome of this instability, we need to study its non-linear development. Here, we describe our ongoing work to develop highly accurate numerical models of a vortex with a density gradient embedded within a protoplanetary disk.

© Owned by the authors, published by EDP Sciences, 2013