Liquid lithium as divertor material to mitigate severe damage of nearby components during plasma transients

Abstract: The successful operation of thermonuclear fusion reactors such as ITER, DEMO, and future commercial plants is mainly determined by the optimum choice of materials for various components. The objective of this work is to accurately and comprehensively simulate the entire device in 3D to predict pros and cons of various materials, e.g., liquid lithium in comparison to tungsten and carbon to predict future ITER-like and DEMO divertor performances. We used our comprehensive HEIGHTS simulation package to investigat… Show more

“…High local redeposition of Si results in low impurities transfer to the core. In addition, significantly lower radiation from Si in comparison with high-Z W reduces both the plasma disruption frequency and the damage to the large divertor area and surrounding walls by radiation from secondary, divertor plasma during transient events [36]. This needs to be studied in more detail.…”

Comprehensive new insights on the potential use of SiC as plasma-facing materials in future fusion reactors

“…High local redeposition of Si results in low impurities transfer to the core. In addition, significantly lower radiation from Si in comparison with high-Z W reduces both the plasma disruption frequency and the damage to the large divertor area and surrounding walls by radiation from secondary, divertor plasma during transient events [36]. This needs to be studied in more detail.…”

Comprehensive new insights on the potential use of SiC as plasma-facing materials in future fusion reactors