Abstract
We perform coagulation & fragmentation simulations to understand grain growth in T Tauri & brown dwarf discs. We present a physically-motivated approach using a probability distribution function for the collision velocities and separating the deterministic & stochastic velocities. We find growth to larger sizes compared to other models. Furthermore, if brown dwarf discs are scaled-down versions of T Tauri discs (in terms of stellar & disc mass, and disc radius), growth at the same location with respect to the outer edge occurs to similar sizes in both discs. Copyright © 2013, International Astronomical Union.
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Meru, F., Galvagni, M., Olczak, C., & Garaud, P. (2013). Large grains can grow in circumstellar discs. In Proceedings of the International Astronomical Union (Vol. 8, pp. 169–170). Cambridge University Press. https://doi.org/10.1017/S1743921313008247
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