Revised scaling equation for the prediction of tritium retention in beryllium co-deposited layers
Author:
Publisher
IOP Publishing
Subject
Condensed Matter Physics,Nuclear and High Energy Physics
Reference11 articles.
1. Tritium inventory in ITER plasma-facing materials and tritium removal procedures
2. Gas balance and fuel retention in fusion devices
3. An empirical scaling for deuterium retention in co-deposited beryllium layers
4. Codeposition of deuterium with ITER materials
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1. Deuterium Retention in Mixed Layers with Application in Fusion Technology;Coatings;2022-07-05
2. Sputtering and reflection from a beryllium surface: effects of hydrogen isotope mass, impact position and surface binding energy;Nuclear Fusion;2022-04-08
3. Beryllium erosion and redeposition in ITER H, He and D–T discharges;Nuclear Fusion;2022-01-24
4. Improved scaling law for the prediction of deuterium retention in beryllium co-deposits;Nuclear Fusion;2022-01-20
5. Deuterium Retention and Release Behavior from Beryllium Co-Deposited Layers at Distinct Ar/D Ratio;Coatings;2021-11-24
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