Add to ORKGHere we demonstrate a comprehensive comparison of collective Thomson scattering (CTS) measurements with steady-state Monte Carlo simulations performed with the ASCOT and VENUS codes. The measurements were taken at a location on the magnetic axis as well as at an off-axis location, using two projection directions at each location. The simulations agree with the measurements on-axis, but for the off-axis geometries discrepancies are observed for both projection directions. For the near perpendicular projection direction with respect to the magnetic field, the discrepancies between measurement and simulations can be explained by uncertainty in plasma parameters. However, the discrepancies between measurement and simulations for the more parall...
Fast ion physics will play an important role on ITER where confined alpha particles will affect plas...
We compute tomographies of 2D fast-ion velocity distribution functions from synthetic collective Tho...
The Thomson scattering spectrum represents the projection of the three-dimensional electron velocity...
Here we demonstrate a comprehensive comparison of collective Thomson scattering (CTS) measurements w...
Fast ions created in the fusion processes will provide up to 70% of the heating in ITER. To optimize...
The Collective Thomson Scattering (CTS) technique offers the ability to measure projections of the c...
Here we present collective Thomson scattering measurements of 1D fast-ion velocity distribution func...
Here we present the first measurements by collective Thomson scattering of the evolution of fast-ion...
Here we present the first measurements by collective Thomson scattering of the evolution of fast-ion...
Fast-ion D α (FIDA) and collective Thomson scattering (CTS) diagnostics provide indirect measurement...
Diagnosis of MeV range fast ions by collective Thomson scattering (CTS) of millimetre waves was succ...
International audienceHall effect thrusters are yet not fully understood due to multiple open questi...
Knowledge of the energy spectrum of fast ions in magnetically confined fusion plasmas is important a...
Fast ion physics will play an important role on ITER where confined alpha particles will affect plas...
We compute tomographies of 2D fast-ion velocity distribution functions from synthetic collective Tho...
The Thomson scattering spectrum represents the projection of the three-dimensional electron velocity...
Here we demonstrate a comprehensive comparison of collective Thomson scattering (CTS) measurements w...
Fast ions created in the fusion processes will provide up to 70% of the heating in ITER. To optimize...
The Collective Thomson Scattering (CTS) technique offers the ability to measure projections of the c...
Here we present collective Thomson scattering measurements of 1D fast-ion velocity distribution func...
Here we present the first measurements by collective Thomson scattering of the evolution of fast-ion...
Here we present the first measurements by collective Thomson scattering of the evolution of fast-ion...
Fast-ion D α (FIDA) and collective Thomson scattering (CTS) diagnostics provide indirect measurement...
Diagnosis of MeV range fast ions by collective Thomson scattering (CTS) of millimetre waves was succ...
International audienceHall effect thrusters are yet not fully understood due to multiple open questi...
Knowledge of the energy spectrum of fast ions in magnetically confined fusion plasmas is important a...
Fast ion physics will play an important role on ITER where confined alpha particles will affect plas...
We compute tomographies of 2D fast-ion velocity distribution functions from synthetic collective Tho...
The Thomson scattering spectrum represents the projection of the three-dimensional electron velocity...