CEA, IRFM, F-13108 Saint-Paul-lez-Durance, France.
Author in the following contributions
- L-H transition studies at JET: H, D,He and T
- Predict First: flux-driven multi-channel integrated modelling over multiple confinement times with the gyrokinetic turbulent transport model QuaLiKiz
- The geometry of ICRF – induced wave-SOL interaction: a multi-machine experimental review in view of ITER operation.
- Tungsten transport in tokamaks: towards real-time kinetic-theory-based plasma performance optimisation
- First-Principle-Based integrated modelling of multiple isotope pellet cycles at JET
- Interpretative modeling of impurity transport and tungsten sources in WEST boundary plasma
- Long discharges in steady state with D2 and N2 on the actively cooled tungsten upper divertor in WEST
- Formation of the radial electric field profile in WEST tokamak
- Divertor power loads and scrape off layer width in the large aspect ratio full tungsten tokamak WEST
- Developing high performance RF heating scenarios on the WEST tokamak
- Flux driven pedestal formation in tokamaks: Turbulence simulations validated against the isotope effect
- Collisional transport and poloidal asymmetry distribution of impurities in tokamak plasmas, with application to WEST
- Investigation of Turbulent Transport in the Inner core of JET H-mode Plasmas and Applications to ITER
- Fast modelling of turbulent transport in fusion plasmas using neural networks
- [REGULAR POSTER TWIN] L-H transition studies at JET: H, D,He and T
- [REGULAR POSTER TWIN] Predict First: flux-driven multi-channel integrated modelling over multiple confinement times with the gyrokinetic turbulent transport model QuaLiKiz
