Add to ORKGRecent NSTX high power divertor experiments have shown significant and recurring benefits of solid lithium coatings on PFC's to the performance of divertor plasmas in both L- and H- mode confinement regimes heated by high-power neutral beams. The next step in this work is installation of a liquid lithium divertor (LLD) to achieve density control for inductionless current drive capability (e.g., about a 15-25% ne decrease from present highest non-inductionless fraction discharges which often evolve toward the density limit, ne/nGW~1), to enable ne scan capability (x2) in the H-mode, to test the ability to operate at significantly lower density for future ST-CTF reactor designs (e.g., ne/nGW = 0.25), and eventually to investigate high heat-fl...
Liquid metal walls have the potential to solve first-wall problems for fusion reactors, such as heat...
Two lithium evaporators were used to evaporate more than 100 g of lithium on to the NSTX lower diver...
A model is formulated to make a first estimate of the maximum tolerable power of liquid lithium (Li)...
Developing a reactor compatible divertor has been identified as a particularly challenging technolog...
AbstractIn this work, a conceptual design for a pre-filled liquid lithium divertor target for the Na...
The Liquid Lithium Divertor (LLD) on NSTX will be the first test of a fully-toroidal liquid lithium ...
To develop realistic liquid lithium divertors for future fusion reactors, this paper aims to improve...
Liquid metal plasma-facing components (PFCs) provide numerous potential advantages over solid-materi...
In this work, a conceptual design for a pre-filled liquid lithium divertor target for the National S...
Liquid metal walls have been proposed to address the first wall challenge for fusion reactors. The L...
The implementation of the liquid Lithium Divertor (LLD) in NSTX presented a unique opportunity in pl...
The Lithium Tokamak eXperiment (LTX) is a spherical tokamak with R0 = 0.4m, a = 0.26m, BTF ∼ 3.4kG, ...
As the fusion research community trends toward building larger and hotter devices, evidence points t...
Liquid metal walls have the potential to solve first-wall problems for fusion reactors, such as heat...
Two lithium evaporators were used to evaporate more than 100 g of lithium on to the NSTX lower diver...
A model is formulated to make a first estimate of the maximum tolerable power of liquid lithium (Li)...
Developing a reactor compatible divertor has been identified as a particularly challenging technolog...
AbstractIn this work, a conceptual design for a pre-filled liquid lithium divertor target for the Na...
The Liquid Lithium Divertor (LLD) on NSTX will be the first test of a fully-toroidal liquid lithium ...
To develop realistic liquid lithium divertors for future fusion reactors, this paper aims to improve...
Liquid metal plasma-facing components (PFCs) provide numerous potential advantages over solid-materi...
In this work, a conceptual design for a pre-filled liquid lithium divertor target for the National S...
Liquid metal walls have been proposed to address the first wall challenge for fusion reactors. The L...
The implementation of the liquid Lithium Divertor (LLD) in NSTX presented a unique opportunity in pl...
The Lithium Tokamak eXperiment (LTX) is a spherical tokamak with R0 = 0.4m, a = 0.26m, BTF ∼ 3.4kG, ...
As the fusion research community trends toward building larger and hotter devices, evidence points t...
Liquid metal walls have the potential to solve first-wall problems for fusion reactors, such as heat...
Two lithium evaporators were used to evaporate more than 100 g of lithium on to the NSTX lower diver...
A model is formulated to make a first estimate of the maximum tolerable power of liquid lithium (Li)...