Abstract. The effect of resonant magnetic perturbations on heat transport in DIII-D H-mode plasmas has been calculated by combining the TRIP3D field-line tracing code with the E3D two-fluid transport code. Simulations show that the divertor heat flux distribution becomes non-axisymmetric because heat flux is efficiently guided to the 2 divertor along the three-dimensional invariant manifolds of the magnetic field. Calculations demonstrate that heat flux is spread over a wider area of the divertor target, thereby reducing the peak heat flux delivered during steady-state operation. Filtered optical cameras have observed non-axisymmetric particle fluxes at the strike-point and Langmuir probes have observed non-axisymmetric floating potentials....
Safe ITER operations will rely on power spreading to keep the peak heat flux within divertor materia...
Thermonuclear fusion has potential to offer an economically, environmentally and socially acceptable...
International audienceA deep understanding of plasma transport at the edge of magnetically confined ...
The effect of resonant magnetic perturbations on heat transport in DIII-D H-mode plasmas has been ca...
The heat flux patterns measured in low-collisionality DIII-D H-mode plasmas strongly deviate from si...
Three-dimensional two-fluid simulations of heat transport due to resonant magnetic perturbations of ...
Three-dimensional two-fluid simulations of heat transport due to resonant magnetic perturbations of ...
The impact of resonant magnetic perturbations on plasma edge transport at DIII-D is investigated wit...
Simulations for DIII-D high confinement mode plasmas with the multifluid code UEDGE show a strong ro...
The divertor strike line pattern on the helical divertor of LHD was observed with an infra red camer...
Resonant magnetic perturbations (RMPs) used to control type-I edge-localized modes produce a splitti...
A modeling study is reported using new 2D data from DIII-D tokamak divertor plasmas and improved 2D ...
Heat transport in magnetised plasmas is faster along magnetic field lines than perpendicular to them...
The measured divertor heat flux profiles are compared to the EMC3-EIRENE simulations for two differe...
AbstractSafe ITER operations will rely on power spreading to keep the peak heat flux within divertor...
Safe ITER operations will rely on power spreading to keep the peak heat flux within divertor materia...
Thermonuclear fusion has potential to offer an economically, environmentally and socially acceptable...
International audienceA deep understanding of plasma transport at the edge of magnetically confined ...
The effect of resonant magnetic perturbations on heat transport in DIII-D H-mode plasmas has been ca...
The heat flux patterns measured in low-collisionality DIII-D H-mode plasmas strongly deviate from si...
Three-dimensional two-fluid simulations of heat transport due to resonant magnetic perturbations of ...
Three-dimensional two-fluid simulations of heat transport due to resonant magnetic perturbations of ...
The impact of resonant magnetic perturbations on plasma edge transport at DIII-D is investigated wit...
Simulations for DIII-D high confinement mode plasmas with the multifluid code UEDGE show a strong ro...
The divertor strike line pattern on the helical divertor of LHD was observed with an infra red camer...
Resonant magnetic perturbations (RMPs) used to control type-I edge-localized modes produce a splitti...
A modeling study is reported using new 2D data from DIII-D tokamak divertor plasmas and improved 2D ...
Heat transport in magnetised plasmas is faster along magnetic field lines than perpendicular to them...
The measured divertor heat flux profiles are compared to the EMC3-EIRENE simulations for two differe...
AbstractSafe ITER operations will rely on power spreading to keep the peak heat flux within divertor...
Safe ITER operations will rely on power spreading to keep the peak heat flux within divertor materia...
Thermonuclear fusion has potential to offer an economically, environmentally and socially acceptable...
International audienceA deep understanding of plasma transport at the edge of magnetically confined ...