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.
Technology Innovation Institute’s Directed Energy Research Center (DERC) is sponsoring the 8th Euro-Asian Pulsed Power Conference (EAPPC) in Biarritz, France. The conference will cover topics such as pulsed power applications, high power microwaves, particle beam technology, and ultrahigh magnetic field generation. DERC will present its progress on fast discharge technologies with semiconductors and gases. Why it matters: DERC's participation highlights the growing focus on advanced energy technologies and international collaboration within the UAE's research landscape.
Shamma Almazrouei from the Directed Energy Research Center (DERC) won the Best Oral Presentation Award at the 11th Global Conference on Material Sciences and Engineering (CMSE 2022) for her presentation on "Chromium Doped Tungsten Alloy for Plasma-Facing Components Formed by Compression Plasma Flows." Her research explored the structural and mechanical properties of chromium-doped tungsten alloys for plasma-facing components of fusion reactors. The study suggests that Cr-W alloys can be used to construct plasma-facing components that can withstand high thermal loads. Why it matters: This award recognizes impactful materials science research in the UAE related to fusion reactors, a critical area for future energy technologies.
KAUST has acquired a BM Pro plasma-enhanced chemical vapor deposition (PE-CVD) reactor from AIXTRON for wafer-scale deposition of graphene and carbon nanotubes. The reactor, capable of handling up to 4-inch substrates, will be used by Professor Pedro Da Costa's research team initially, before being opened up to other researchers at KAUST. AIXTRON's VP highlighted the system's uniformity, scalability, rapid heating, and plasma-based processing for growing graphene and nanotubes. Why it matters: This advanced tool enhances KAUST's research capabilities in carbon nanostructures, positioning the university as a leading center for materials science and nanotechnology research in the region.
The Directed Energy Research Center (DERC) in the UAE has partnered with the University of Pisa to develop electronically controlled surfaces for dynamic broadband radio-absorption. This collaboration aims to test new materials and manufacturing processes for flexible radio-absorbing surfaces suited for harsh environments like the UAE. The project seeks to create smart-shields, active electromagnetic frequency selective surfaces, and electromagnetic energy harvesting surfaces. Why it matters: The partnership accelerates innovation in applied electromagnetics and could lead to advancements in telecommunications, energy, and electromagnetic protection in the region.
KAUST hosted the Advanced Membranes and Porous Materials Center Research Conference from February 20-23. The conference focused on new materials for energy-intensive industrial separations. Experts, students, and researchers participated in presentations and poster sessions. Why it matters: Conferences like this promote collaboration and knowledge sharing in materials science, which is crucial for developing sustainable technologies in energy and other sectors within Saudi Arabia.
DERC is partnering with EPFL in Switzerland on a four-year project using EMTR and ML to study electromagnetic disturbance localization in PCBs. Professor Farhad Rachidi (EPFL) and Dr. Nicolas Mora (DERC) will mentor a PhD student. The collaboration builds on prior relationships between DERC researchers and Prof. Rachidi's lab. Why it matters: The partnership strengthens DERC's methodological expertise and international recognition in electromagnetic studies, potentially leading to further collaborations.
Technology Innovation Institute's (TII) Directed Energy Research Center (DERC) in Abu Dhabi has launched the GCC region's first Laser-Matter Interaction (LMI) Laboratory. The LMI Lab, part of DERC's Laser, Photonics, and Optoelectronics Division, will investigate laser interactions with matter. This lab will enable local research and development in laser materials processing, plasma physics, and nanotechnology, reducing reliance on foreign outsourcing. Why it matters: This regional first enhances the UAE's position in advanced technology research and expands the application of lasers across diverse industries in the GCC.