Oak Ridge National Laboratory
Author in the following contributions
- Design and Performance of Shattered Pellet Injection Systems for JET and KSTAR Disruption Mitigation Research in Support of ITER
- A novel path to runaway electron mitigation via deuterium injection and current-driven kink instability
- Shattered Pellet Injection experiments at JET in support of the ITER Disruption Mitigation System design
- DIII-D and International Research Towards Extrapolating Shattered Pellet Injection Performance to ITER
- Disruption mitigation by symmetric dual injection of shattered pellets in KSTAR
- Reduction of peak ELM energy fluence with pellet triggering in low collisionality DIII-D plasmas
- Spatially Dependent Simulations and Model Validation of Runaway Electron Dissipation Via Impurity Injection in DIII-D and JET Using KORC
- Recent Progress in Shattered Pellet Injection Technology in Support of the ITER Disruption Mitigation System
- [RAPPORTEURED TWIN] Design and Performance of Shattered Pellet Injection Systems for JET and KSTAR Disruption Mitigation Research in Support of ITER
- [RAPPORTEURED TWIN] Design and Performance of Shattered Pellet Injection Systems for JET and KSTAR Disruption Mitigation Research in Support of ITER
- [RAPPORTEURED TWIN] Design and Performance of Shattered Pellet Injection Systems for JET and KSTAR Disruption Mitigation Research in Support of ITER
- [REGULAR POSTER TWIN] Design and Performance of Shattered Pellet Injection Systems for JET and KSTAR Disruption Mitigation Research in Support of ITER
- [REGULAR POSTER TWIN] DIII-D and International Research Towards Extrapolating Shattered Pellet Injection Performance to ITER
- [REGULAR POSTER TWIN] A novel path to runaway electron mitigation via deuterium injection and current-driven kink instability
- [REGULAR POSTER TWIN] Disruption mitigation by symmetric dual injection of shattered pellets in KSTAR
- [REGULAR POSTER TWIN] Shattered Pellet Injection experiments at JET in support of the ITER Disruption Mitigation System design
