![]() By integrating these technologies, the Collaborative Research Cluster will design a blanket mock-up loop. It will also develop the final optical system of the laser irradiation system applying liquid metal technology. The Collaborative Research Cluster will enhance the large-scale synthesis technology of high-purity liquid lithium-lead fuel breeding material, which is essential for commercial reactor operation, leveraging the technical expertise accumulated by Tokyo Tech. Through collaboration between EX-Fusion and Tokyo Tech, which is at the forefront of research on energy conversion systems using liquid metal fluid, they plan to jointly tackle such a wide range of technological applications, aiming to maximize the social implementation of these technologies. It has been recognized by Toyo Keizai, a major Japanese economic magazine, as one of the 'Top 100 Outstanding Ventures' in 2023. ![]() EX-Fusion is a startup company developing essential technologies for laser fusion reactors, including lasers and fuel targets. The insights and liquid metal technology group gained from this collaborative research are expected to be useful not only in fusion but also in a wide range of fields such as liquid metal mirrors and environmental purification technologies. It will also develop the necessary liquid blanket component technologies while working broadly on joint research towards designing a blanket mock-up loop. Through collaborative research between EX-Fusion, which develops laser fusion reactors, and Tokyo Tech, which conducts academic research related to liquid metal fluid, the Collaborative Research Cluster aims to construct a concept for liquid fuel blankets suitable for laser fusion reactors. However, while numerous research and development efforts are underway worldwide to address technical challenges and enhance energy efficiency, as of the present, commercial laser fusion reactors have not yet been realized. Furthermore, it possesses the ability to flexibly adapt to fluctuations in electricity demand, and over the long term, it is projected to be a key player in the drive towards decarbonization. Leveraging seawater resources, it offers a safe and sustainable energy supply option. Laser fusion, on the other hand, is a technology that induces nuclear fusion reactions by irradiating fuel with lasers, resulting in the generation of energy. Nuclear fusion reactions are one of the natural phenomena through which the sun, like all other stars, generates immense energy, involving the fusion of atomic nuclei, such as hydrogen, under high-temperature and high-pressure conditions, transforming them into heavier nuclei like helium. In the midst of the urgent demand for energy supplies that do not emit greenhouse gases, laser fusion reactors are globally garnering high expectations as a sustainable energy source.
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