Atomic Data for Vapour Shielding in Fusion Devices

When wall material is rapidly evaporated or ablated by an energetic plume of hot plasma, a dense expanding plasma cloud is formed in front of the surface. In this dense plasma the incoming energy may largely be converted from fast particle kinetic energy into electromagnetic radiation directed away from the surface, thereby shielding the wall from further damage.

Some of the principal processes in a shielding plasma.

This CRP will focus on the provision of fundamental atomic and molecular data to accurately model the vapour shielding phenomenon, with particular focus on novel liquid metal walls that have been proposed for use in magnetic confinement fusion devices. The project will start in early 2019 and is expected to run for 3 – 4 years.

Francisco TABARÉS Centro de Investigaciones Energeticas, Medioambientales y Tecnologicas (CIEMAT)
Igor BRAY Faculty of Science and Engineering, Curtin University
Ling LIU Institute of Applied Physics and Computational Mathematics (IAPCM)
Mohamad AKEL Atomic Energy Commission of Syria (AECS)
Narendra SINGH University of Delhi
Predrag KRSTIĆ Princeton Plasma Physics Laboratory (PPPL)
Ratko JANEV Macedonian Academy of Sciences and Arts (MASA)
Roberto CELIBERTO Politecnico di Bari (Polytechnic University of Bari)