Humanity's space ambitions such as a vastly expanding satellite network, a Moon base, and Mars exploration face a major challenge: the lack of a reliable, self-sustaining way to collect and distribute solar energy, the only readily available energy source in space.
APACE´s overarching goal is to design and realize a novel bio-inspired class of laser media for Sunlight-Pumped Lasers (SPL) – capable of converting natural sunlight into coherent light suitable for long-distance energy transmission.
To achieve its objectives, APACE will:
1) Develop supramolecular gain media (SGM) by integrating photosynthetic or artificial antenna complexes with molecular or doped nanocrystal lasing units.
2) Fabricate and test micro-laser devices under various optical pumping conditions to assess performance and efficiency.
3) Design and evaluate a SPL prototype under different solar radiation intensities and temperature conditions.
4) Define space-preparation parameters for the SGM, including bacterial growth and artificial synthesis in microgravity, and explore the potential exploitation of SPL technologies for future space missions.
This breakthrough technology will open new avenues for solar energy harvesting in space, enabling a new path towards laser wireless power transfer, laser communication and energy storage systems.
It will also provide the scientific foundation for sustainable photonic energy solutions for terrestrial applications.