A new study achieves unprecedented accuracy in modelling extreme cosmic events like black hole and neutron star collisions by calculating the fifth post-Minkowskian (5PM) order, crucial for interpreting gravitational wave data from current and future observatories. The research reveals the surprising appearance of Calabi-Yau three-fold periods -- complex geometric structures from string theory and algebraic geometry -- within calculations of radiated energy and recoil, suggesting a deep connection between abstract mathematics and astrophysical phenomena. Utilizing over 300,000 core hours of high-performance computing, an international team demonstrated the power of advanced computational methods in solving complex equations governing black hole interactions, paving the way for more accurate gravitational wave templates and insights into galaxy formation.
source https://www.sciencedaily.com/releases/2025/05/250514111230.htm
How photosynthetic bacteria pass light along: Two major energy pathways
identified
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RIKEN researchers have found out how light energy harvested by pigments
besides chlorophyll is transferred to the molecular site where
photosynthesis occur...
6 hours ago
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