Welcome to KAIST Plasma/Fusion Group

We are a TEAM of Plasma & Fusion research at KAIST, Republic of Korea

Plasma, commonly referred to as the “fourth state of matter,” underpins numerous high-impact technologies and constitutes the foundation of nuclear fusion research. At KAIST, our group investigates plasma physics across a spectrum of temperatures and densities, from high-temperature plasmas essential for fusion energy development to low-temperature plasmas used in industrial and biomedical applications. Drawing on advanced experimental diagnostics, computational modeling, and theoretical frameworks, we seek to elucidate the complex behavior of charged particles under extreme electric and magnetic fields. By understanding these processes, we aim to unlock the potential of nuclear fusion—a clean, virtually limitless energy source—and develop cutting-edge applications in areas such as semiconductor manufacturing, environmental solutions, and space propulsion.

Our team focuses on creating and controlling high-temperature plasmas for fusion reactors, investigating how to confine these super-hot charged particles for as long as possible. We also study low-temperature plasmas that power advanced technologies in healthcare, food safety, and nanomanufacturing. Ultimately, our mission is to harness plasma’s unique properties to address global energy challenges and drive innovation across a wide range of industries.

By integrating theoretical insights with experimental innovation, our research group strives to lead advancements in clean energy technologies while fostering interdisciplinary applications of plasma science.
By bridging fundamental plasma physics with large-scale engineering challenges, KAIST aims to position itself at the forefront of fusion energy commercialization and next-generation plasma technologies.

Research area

Nuclear Fusion

We accelerate fusion research by combining advanced diagnostics, high-fidelity simulations, and data-driven control methods to optimize plasma confinement and realize a future energy source

Plasma Fundamentals

Core physics of ionized gases—from charged particle dynamics and wave-particle interactions to plasma equilibrium and stability—to expand the boundaries of scientific understanding

Space Applications

Exploring electric propulsion technologies, driving innovations in satellite maneuverability, deep-space exploration, and advanced aerospace systems

Plasma Applications

Extending plasma research to diverse fields such as semiconductor manufacturing, medical technologies, and environmental remediation

Our Mission & Vision

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To advance scientific knowledge and train future leaders in plasma science and engineering while contributing to KAIST's mission of addressing global challenges
To establish itself as a world-leading research group delivering breakthroughs in plasma dynamics and nuclear fusion energy solutions
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Collaborations & Partnerships

Our group actively collaborates with leading institutions worldwide, including Princeton University (PPPL), MIT, ~, the Japanese Atomic Energy Research Institute, and others. These partnerships enable cutting-edge research through shared expertise and resources. Additionally, the group contributes to Korea's National Fusion Program by providing foundational physics insights for the design and operation of the KSTAR tokamak

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