A Zero-Radiation Pressure Sunshade for Supporting Climate Change Mitigation
Abstract
Limiting climate change to within the 2 C limit requires net zero emissions of CO2 by 2050. However, the window of opportunity is closing fast. Geoengineering as the intentional and large-scale manipulation of the environment and in particular the climate is increasingly discussed as a complement to ongoing mitigation efforts. As a particular geoengineering approach, space-based geoengineering blocks or dissipates a fraction of incoming sunlight via many occulting membranes, located close to the Sun-Earth Lagrange 1 point. However, the mass of the proposed sunshades, around 107-108 tons, and their associated cost render them about 103 times more costly than terrestrial alternatives. In this article, we propose a novel sunshade concept, which is between 102 to 103 times lighter than the lightest existing sunshade concepts. This is achieved via a net zero-radiation pressure design, based on the use of diffractive metamaterials, removing one of the major constraints to reducing sunshade mass. The whole sunshade system has a total mass of approximately 6.2 × 105 tons and its deployment requires between 102 to 103 annual launches during a ten-year period. The achieved cost reduction might render space-based geoengineering competitive to terrestrial geoengineering approaches.
Turn this paper into a full lesson
ArcXiv compiles a staged curriculum from this paper: 8-12 lessons across beginner → advanced, synthesised section guides, visuals, flashcards, a quiz, exercises, and on-demand deep dives per section. Grounded in the abstract, never invented.