Planetary Exploration 3.0 proposes single adaptive missions that perform both initial exploration and follow-on science on unvisited worlds using software-defined space systems.
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Laser Ionisation Mass Spectrometry can detect organic molecules, microstructures, and sulphur isotope fractionation as signatures of life for future Solar System missions, with machine learning aiding unbiased analysis.
citing papers explorer
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Planetary Exploration 3.0: A Roadmap for Software-Defined, Radically Adaptive Space Systems
Planetary Exploration 3.0 proposes single adaptive missions that perform both initial exploration and follow-on science on unvisited worlds using software-defined space systems.
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Laser-based mass spectrometry for the detection of signatures of life within our Solar System
Laser Ionisation Mass Spectrometry can detect organic molecules, microstructures, and sulphur isotope fractionation as signatures of life for future Solar System missions, with machine learning aiding unbiased analysis.