The MiARD project has used data from the Rosetta space mission to better understand the origin and evolution of comets, and their role in the solar system (including the possibility that they may have indirectly influenced the emergence of life, by delivering volatile species such as water to the Earth).
The broad objectives of the MiARD project were to use an interdisciplinary multi-instrument approach to the analysis of data from the Rosetta mission, in order to make progress towards answering some fundamental questions about comets and the formation and evolution of the solar system. In doing this, the project has also derived information that is expected to be useful in risk mitigation for cometary and cometary-related impacts with Earth and man-made objects.
The fundamental questions are:
• How did our solar system and other planetary systems form?
• How did life develop on Earth?
• How unique are these processes?
We did not, however, expect to obtain definitive answers to these questions within the MiARD project! The project has though proceeded in a structured way to obtain information required to address these questions. We began by deriving an accurate and detailed shape model of the comet, a pre-requisite for subsequent studies of the strength of cometary materials, and for numerical modelling of the activity (outgassing of the comet). The nature of the cometary surface, its strength, and the extent of material loss are key to understanding the evolution of the comet 67P/Churyumov-Gerasimenko (and by extension, other comets), and to what extent the current state of the comet can tell us about its past. In the second half of the project, we focused on comparing what is known about 67P/Churyumov-Gerasimenko with information from other comets, and on considering the scientific case for a cometary nucleus sample return mission. We were also able to quantify the non-gravitational forces that perturb the orbit of 67P and thr comets, and the trajectories of material (dust) ejected from comets - highly relevant to the risks to Earth and spacecraft.