PROGRAMME

Bayesian inference of two dimensional thermal Helium beam diagnostic in W7-X including beam attenuation DR. LEE, Wonjun Max Planck Institute for Plasma Physics Dr Wonjun Lee is a postdoctoral researcher at the Max Planck Institute for Plasma Physics. His research combines plasma diagnostics, Bayesian inference, and data-driven analysis to investigate transport and instability phenomena in magnetically confined fusion plasmas. He earned his PhD in Nuclear and Quantum Engineering from KAIST, where he conducted pioneering studies of fishbone instabilities and plasma turbulence in the KSTAR tokamak using advanced statistical techniques.

To be determined - with the full description. Releated to Nuclear power DR. KIM, Shin Whan International Atomic Energy Agency (IAEA) Dr. Shin Whan Kim leads the Nuclear Power Engineering Section in the Nuclear Power Division at the IAEA, where his team supports Member States in achieving safe and reliable operation and construction of nuclear power plants. Prior to joining the IAEA in 2021, he served as Executive Vice President at KEPCO Engineering and Construction Company, leading the NSSS Division. During his 28 years at KEPCO E&C, he gained experience in nuclear power plant design, technology development, project management, and strategic planning. Dr. Kim holds a BS and MS in Nuclear Engineering from Seoul National University, as well as a Ph.D. from Rensselaer Polytechnic Institute in the USA.

Remote Handling compatible Design of the Replaceable First Wall diagnostic for ITER DR. PARK, Junhyoung Iter Organization Junhyoung Park received his B.S. in Materials Science and Engineering from Yonsei University and his Ph.D. in Mechanical Engineering from Seoul National University (SNU). His research focuses on characterizing surface defects and their correlation with the stability of energy materials, including how these materials defect interact with photons and plasma particles. He is currently a member of the ITER diagnostics team, where he investigates the experimental design of plasma-surface interactions measurement.