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Slow-Flow Capillary Porous System Test
LM PFC Integration
H retention in neutron irradiated tungsten
Tritium transport in PFCs and blankets
Leveraging MPEX to develop predictive model and in-situ monitoring method for tungsten net erosion in tokamak divertors
Code Validation Experiments
MPEX Utilization for ARC
Introduction to liquid metal R&D priorities
Refractory ceramics irradiation response and PMI relevance – โUltra-High Temperature Ceramics”
Tungsten fuzz precursors and evolution
MPEX Diagnostics
Implanted depth marker studies for erosion/redeposition
H retention: Introduction
Erosion properties of advanced tungsten materials
PMI Research in Linear Devices for the FNS era
In-situ erosion measurement options and validation
LM PFC Integration
Erosion/re-deposition gaps/needs emphasizing appropriate linear-toroidal device coupling
Fuel retention in high energy ion damaged tungsten
PMI-induced changes to PFM thermal conductivity
Interpretation of Thermal Desorption Results of Hydrogen and Helium in Tungsten
Leveraging MPEX to develop predictive model and in-situ monitoring method for tungsten net erosion in tokamak divertors
Overview of Surface Modification Experiments & Future Perspective
PMI Research in Linear Devices for the FNS era
In-situ erosion measurement options and validation
Sheath effects on erosion
MPEX High Level Commissioning
Introduction to MPEX
Silicon carbide as plasma facing material
Introduction to liquid metal R&D priorities
Needs for modeling validation of the plasma response to liquid metals
MPEX research program โ Fusion Energy Perspectives. TE.Ltd
Needs for flowing liquid lithium and metal systems for MPEX
Modeling hydrogen retention in damaged tungsten to interpret experimental tests
Needs for flowing liquid lithium and metal systems for MPEX
Thermal Shock & Fracture of Tungsten Subjected to
Plasma Transients
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