Progress, Potential, and Possibilities Podcast / Show Dr. Marco de Baar, Ph.D. - Chair, Plasma Fusion Operation and Control, Eindhoven University of Technology / Head, Fusion Research, Dutch Institute for Fundamental Energy Research - How Plasma Control Will Make Fusion Power Possible
Dr. Marco de Baar, Ph.D. is a full professor and Chair of Plasma Fusion Operation and Control at the Mechanical Engineering Faculty of Eindhoven University of Technology ( TU/e - https://www.tue.nl/en/research/researchers/marco-de-baar ).
In addition to his work at TU/e, Dr. de Baar is also head of fusion research at the Dutch Institute for Fundamental Energy Research ( DIFFER - https://www.differ.nl/ ) located on the TU/e campus. As member of DIFFER's management team, he has also served as the Dutch representative in the European fusion research consortium EUROfusion ( https://euro-fusion.org/ ).
From 2004 to 2007, Dr. de Baar headed the operations department at JET (Joint European Torus), Europe's largest fusion experiment to date, where he was responsible for the successful operation and development of the reactor. From 2007, he was deputy project leader in the international consortium that develops the upper port launcher. He is program-leader for the Magnetohydrodynamics stabilization work package in ITER-NL ( International Thermonuclear Experimental Reactor - https://www.iter.org/ ).
Dr. de Baar’s main scientific interest is the control of nuclear fusion plasmas, with a focus on control of Magnetohydrodynamics modes (for plasma stability) and current density profile (for performance optimization). In his research program, all elements of the control loops are considered, including actuator and sensor design, and advanced control oriented modelling. He also has a keen interest in the operations and the remote maintainability of nuclear fusion reactors.
Dr. de Baar's research largely focuses on understanding and controlling the turbulent plasma in a fusion reactor or tokamak: hot, charged and magnetised gas. Fusion could be a clean, safe, large-scale energy source, but the big challenge to realizing commercially attractive fusion energy is protecting the wall of the fusion reactor against the hot fusion exhaust.
In the research program Dr. de Baar is carrying out with DIFFER, the aim is to start managing the heat load inside the plasma, and bring the energy to the wall in a controlled way.
As a physicist, Dr. de Baar has a strong interest in control engineering, as the two fields make it possible to combine very different viewpoints.
Dr. de Baar received his Ph.D. is physics from TU/e and also holds an MSc in experimental physics from the University of Utrecht.
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