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.
Yuan-Kai Liu, a master’s student from KAUST, received the Outstanding Student Poster and PICO Award at the European Geosciences Union General Assembly 2017 for his poster on caldera ring-fault development. Liu's poster presented results from analogue experiments, including deformation characteristics from time-resolved digital image correlation and 3-D spatial photogrammetry data. His research focuses on ground deformation analyses of subsiding calderas, combining analogue experiments with numerical modeling. Why it matters: This award recognizes KAUST's contribution to earth science and engineering and highlights the university's focus on innovative research in geophysics.
A team from KAUST's Earth Science and Engineering program visited the site of the ongoing volcanic eruption in Iceland, which began in August 2014. Researchers monitored ground movements related to a collapsing structure near the eruption site using GPS instruments to measure vertical ground displacements. They aim to compare these measurements with satellite radar data to quantify volume changes before, during, and after the eruption. Why it matters: This study exemplifies the application of KAUST's earth science expertise to understanding and monitoring significant geological events, contributing to hazard assessment and risk management in volcanically active regions.
Researchers at TII have had their lunar research accepted for publication in Nature Communications. The paper unveils hidden magmatic pathways beneath the Moon’s Oceanus Procellarum region using gravity mapping data from NASA's GRAIL mission. The research indicates various volcanic systems could be connected by horizontal magmatic conduits stretching up to 150 kilometers beneath the lunar surface, offering the first evidence of long-distance lateral magma transport on the Moon. Why it matters: The discovery enhances understanding of volcanic processes on the Moon and solidifies TII’s position in space and planetary sciences.
Fred Farina, Chief Innovation Officer at Caltech, spoke at KAUST about commercializing academic research. He emphasized licensing research to corporations and creating startups, highlighting the importance of academic-industry partnerships for transitioning to a knowledge economy in the region. Farina noted that successful technology transfer requires a long-term commitment and a robust ecosystem of venture capital and companies. Why it matters: This highlights the increasing focus on diversifying GCC economies beyond oil through strategic investments in research and technology transfer, with universities playing a central role.
KAUST hosted a Global IT Summit. The summit featured speakers like Khaled Biyari, group CEO at the Saudi Telecom Company. Interviews from the summit are available on KAUST's official YouTube channel. Why it matters: The summit likely served as a forum for discussing IT trends and developments relevant to Saudi Arabia's Vision 2030.
KAUST researchers led by Prof. Omar Mohammed developed safer scintillation materials to improve X-ray imaging. A team led by Assoc. Prof. Yoji Kobayashi discovered a calcium-based catalyst that unexpectedly synthesizes ammonia. Why it matters: These research advancements from KAUST contribute to scientific innovation in materials science and sustainable chemical processes within the region.
William Tang from Princeton spoke at KAUST about using deep learning to achieve nuclear fusion. Nuclear fusion, recreating stellar conditions on Earth, is considered the "holy grail" of power sources because it is clean and does not produce radioactive waste. Tokamaks, invented by Soviet physicists, are devices used to contain plasma, the superheated ionized gas required for fusion. Why it matters: KAUST is contributing to research on sustainable energy solutions, including exploring the potential of AI in nuclear fusion, a potentially transformative clean energy source.