Dr
General Atomics
Author in the following contributions
- TH/P4-07: Integrated Approach to the H-mode Pedestal Dynamics: Effects of Bootstrap Current and Resonant Magnetic Perturbations on ELMs
- TH/P4-06: Eulerian Simulations of Neoclassical Flows and Transport in the Tokamak Plasma Edge and Outer Core
- EX/P4-02: Analysis of Temperature and Density Pedestal in a Multi-machine Database
- EX/P3-18: Experimental Tests of Stiffness in the Electron and Ion Energy Transport in the DIII-D Tokamak
- EX/P7-09: Validation Studies of Gyrofluid and Gyrokinetic Predictions of Transport and Turbulence Stiffness Using the DIII-D Tokamak
- EX/11-2: The Nearly Continuous Improvement of Discharge Characteristics and Edge Stability with Increasing Lithium Coatings in NSTX
- TH/P2-05: Modelling of Hybrid Scenario: from Present-day Experiments toward ITER
- EX/P7-20: L-H Power Threshold, Pedestal Stability and Confinement in JET with a Metallic Wall
- TH/P3-17: The EPED Pedestal Model: Extensions, Application to ELM-Suppressed Regimes, and ITER Predictions
- EX/11-4: Improved Understanding of Physics Processes in Pedestal Structure, Leading to Improved Predictive Capability for ITER
- EX/1-3: Progress in Performance and Understanding of Steady ELM-free I-modes on Alcator C-Mod
- EX/P4-08: Reactor-relevant Quiescent H-mode Operation Using Torque from Non-axisymmetric, Non-resonant Magnetic Fields
- TH/P4-21: Edge Plasma Response to Non-Axisymmetric Fields in Tokamaks
- TH/5-2Rb: Theory and Gyro-fluid Simulations of Edge-Localized-Modes
- FTP/P7-35: A Fast-Track Path to DEMO Enabled by ITER and FNSF-AT
- EX/3-1: Advances in the Physics Understanding of ELM Suppression Using Resonant Magnetic Perturbations in DIII-D
- EX/P4-15: Pedestal Stability and Transport on the Alcator C-Mod Tokamak: Experiments in Support of Developing Predictive Capability
