Add to ORKGTungsten targets are irradiated with 12.3 MeV W4+ ions to damage levels up to 2.0 displacements per atom. These irradiated targets are then exposed to high-flux deuterium plasmas with surface temperatures ranging from 360 to 950 K. Nuclear reaction analysis shows significant enhancement of retention in the damaged region of the tungsten for all temperatures. Thermal desorption spectroscopy (TDS) shows an enhancement of both high energy and low-energy trap concentrations due to the W4+ irradiation although the distribution of the trapped deuterium among these different trap types can vary strongly with temperature. In this investigation, TMAP7, a 1-D slab model hydrogen transport code, is used to fit the TDS spectra to gain insight into the ...
The effect of severe plastic deformation on the deuterium retention in tungsten exposed to high-flux...
International audienceThe possible synergistic effect and mutual influence of the defect production ...
Polycrystalline, annealed tungsten targets were bombarded with 12.3 MeV W4+ ions to various damage l...
Tungsten targets are irradiated with 12.3 MeV W4+ ions to damage levels up to 2.0 displacements per ...
Two sets of identical tungsten (W) targets are irradiated at 300K with 12.3MeV W4+ ions to peak dama...
We investigated the effect of surface temperature on deuterium retention in self-damaged tungsten ex...
Tungsten is a primary candidate for plasma facing materials for future fusion devices. An important ...
A fundamental obstacle to controlled fusion devices is the retention of hydrogenic fuel in Plasma Fa...
Tungsten is a candidate plasma facing material for next generation magnetic fusion devices such as ...
Deuterium retention and trapping in tungsten plasma sprayed layers after low energy plasma irradiati...
In order to study the diffusion, surface recombination and trapping of hydrogen isotopes in tungsten...
The possible mutual influence and synergistic effect between defect production and the presence of h...
Deuterium retention behavior in tungsten damaged by fast neutrons at high temperatures (0.43 dpa at ...
A recently developed numerical model, based on the dislocation-driven nucleation of gas bubbles, is ...
Polycrystalline, annealed tungsten targets were bombarded with 12.3MeV W4+ ions to various damage le...
The effect of severe plastic deformation on the deuterium retention in tungsten exposed to high-flux...
International audienceThe possible synergistic effect and mutual influence of the defect production ...
Polycrystalline, annealed tungsten targets were bombarded with 12.3 MeV W4+ ions to various damage l...
Tungsten targets are irradiated with 12.3 MeV W4+ ions to damage levels up to 2.0 displacements per ...
Two sets of identical tungsten (W) targets are irradiated at 300K with 12.3MeV W4+ ions to peak dama...
We investigated the effect of surface temperature on deuterium retention in self-damaged tungsten ex...
Tungsten is a primary candidate for plasma facing materials for future fusion devices. An important ...
A fundamental obstacle to controlled fusion devices is the retention of hydrogenic fuel in Plasma Fa...
Tungsten is a candidate plasma facing material for next generation magnetic fusion devices such as ...
Deuterium retention and trapping in tungsten plasma sprayed layers after low energy plasma irradiati...
In order to study the diffusion, surface recombination and trapping of hydrogen isotopes in tungsten...
The possible mutual influence and synergistic effect between defect production and the presence of h...
Deuterium retention behavior in tungsten damaged by fast neutrons at high temperatures (0.43 dpa at ...
A recently developed numerical model, based on the dislocation-driven nucleation of gas bubbles, is ...
Polycrystalline, annealed tungsten targets were bombarded with 12.3MeV W4+ ions to various damage le...
The effect of severe plastic deformation on the deuterium retention in tungsten exposed to high-flux...
International audienceThe possible synergistic effect and mutual influence of the defect production ...
Polycrystalline, annealed tungsten targets were bombarded with 12.3 MeV W4+ ions to various damage l...