KAUST Professor Georgiy Stenchikov has received the 2022 Future of Life Award for his research on the climatic consequences of nuclear war. Stenchikov is the principal investigator of the KAUST Atmospheric and Climate Modeling (ATCM) Research Group. The award recognizes his work on "reducing the risk of nuclear war by developing and popularizing the science of nuclear winter." Why it matters: This award highlights the important climate research being conducted at KAUST and its relevance to global challenges.
Dr. Leslie Dewan, co-founder and CEO of Transatomic, spoke at KAUST's Winter Enrichment Program about next-generation sustainable nuclear power plants. Dewan advocates for both nuclear and renewable energy to meet energy demands. She believes her company's new reactor design, which uses better fuel and reduces nuclear waste, is ideal for countries with rising power demands like Saudi Arabia. Why it matters: This highlights KAUST's engagement with innovative energy solutions and their potential relevance to Saudi Arabia's future energy strategy.
Lewis Dartnell, professor of science communication at the University of Westminster, spoke at KAUST about how to rebuild the world after an apocalyptic scenario. Dartnell is the author of "The Knowledge: How to Rebuild our World from Scratch." The Enrichment in the Fall lecture took place on October 17. Why it matters: Public lectures at KAUST contribute to knowledge dissemination and engagement with global challenges.
The Directed Energy Research Center (DERC) at TII will participate in the 2021 Joint IEEE International Symposium on Electromagnetic Compatibility, Signal & Power Integrity, and EMC Europe. DERC will present scientific papers and a tutorial on Nuclear Electromagnetic Pulse (NEMP) with ETS Lindgren, led by Dr. Nicolas Mora. Dr. Mora and Professor Farhad Rachidi will present a tutorial on High Altitude Electromagnetic Pulse (HEMP), Electromagnetic Pulse (EMP), and Intentional Electromagnetic Interference (IEMI). Why it matters: The participation highlights the UAE's growing expertise in electromagnetic compatibility and protection, particularly regarding critical infrastructure resilience against electromagnetic threats.
The Directed Energy Research Center (DERC) is partnering with Montena Technology to study high-altitude electromagnetic pulses and design infrastructure safeguards. DERC is also collaborating with Radaz to evaluate ground penetrating and synthetic aperture radars in Abu Dhabi, aiming to identify natural resources. Additionally, DERC and Université de Picardie Jules Verne are working on laser sources and sensors, with a DERC researcher spending four years in France. Why it matters: These partnerships enhance DERC's research capabilities in critical areas like infrastructure protection, resource exploration, and advanced sensing technologies.
KAUST researchers are studying ancient supervolcanoes, like the Toba eruption 75,000 years ago, to understand current and future climate conditions. Volcanic eruptions serve as natural experiments that push the climate system to its limits, helping scientists understand climate's physical mechanisms. Research shows that volcanic eruptions delayed global warming by about 30% starting from 1850. Why it matters: Understanding the impact of volcanic activity on climate change can improve predictions of future global warming, particularly in regions like the Middle East which are strongly affected by volcanic events.
TII's Directed Energy Research Center (DERC) is now the first in the GCC to reproduce high-altitude electromagnetic pulses (HEMP) from nuclear reactions using its EMC labs, in partnership with Montena Technologies. The Nuclear Electromagnetic Pulse Simulator allows local testing of critical infrastructure and electronics, reducing reliance on foreign facilities. DERC's capabilities will support government entities and industries in hardening equipment against international standards. Why it matters: This provides strategic autonomy and enhances the UAE's ability to protect critical infrastructure from electromagnetic threats, benefiting various sectors including emergency services, telecommunications, and finance.
This paper introduces rational counterfactuals, a method for identifying counterfactuals that maximize the attainment of a desired consequent. The approach aims to identify the antecedent that leads to a specific outcome for rational decision-making. The theory is applied to identify variable values that contribute to peace, such as Allies, Contingency, Distance, Major Power, Capability, Democracy, and Economic Interdependency. Why it matters: The research provides a framework for analyzing and promoting conditions conducive to peace using counterfactual reasoning.