The chemical composition of Earth is not only determined by the origin of its building material (see Phase 1 of this project), but also by the evolution of the pebbles, planetesimals and planetary embryos on their way to become part of Earth. Pebbles partially evaporate their volatile content at the ice lines and planetesimals may already differentiate, which has severe impact on the volatile content of planetesimals after collisions and during the final build up of earth. Based on our results from Phase 1, e.g. pebble flux and accretion, planetesimal formation and incorporation of the mix into planetary embryos using the TWO-POP-PY code and LIPAD we now want to focus on A: a better modelling of the fate of pebbles at the snow line and B: study the collisions as predicted in the LIPAD code with actual SPH simulations of colliding planetesimals and planetary embryos, to keep better track of their chemical constituents. In combination with the chemical/ mineralogical/ geological record of the Earth as we learn from our colleagues, we will link the Solar Nebula properties to the chemical cocktail that made Earth habitable.

DFG Programme Priority Programmes

Subproject of SPP 1833:  Building a Habitable Earth

International Connection Netherlands, USA

Cooperation Partners Dr. Katharina Kretke; Dr. Harold Levison; Professor Dr. Christiaan Wessel Ormel; Dr. Kevin Walsh