Princeton Plasma Physics Laboratory
Author in the following contributions
- Improved Reproducibility of Plasma Discharges via Physics-model-based q-profile Feedback Control in DIII-D
- Analysis and prediction of momentum transport in spherical tokamaks
- Edge- and divertor and plasma behavior in high power high performance double-null plasmas
- Bifurcation of Quiescent H-mode to a Wide Pedestal Regime in DIII-D and Advances in the Understanding of Edge Harmonic Oscillations
- Nonlinear MHD simulations of Quiescent H-mode pedestal in DIII-D and implications for ITER
- DIII-D Research Advancing the Scientific Basis for Burning Plasmas and Fusion Energy
- DIII-D Research Advancing the Scientific Basis for Burning Plasmas and Fusion Energy
- Development of high poloidal beta, steady-state scenario with ITER-like W divertor on EAST
- Validation of Theoretical Models of Intrinsic Torque in DIII-D and Projection to ITER by Dimensionless Scaling
- Advances in the Steady-State Hybrid Regime in DIII-D – A Fully-Noninductive, ELM-Suppressed Scenario for ITER
- Magnetic shear effects on plasma transport and turbulence at high electron to ion temperature ratio in DIII-D and JT-60U plasmas
- Advances in the high bootstrap fraction regime on DIII-D towards the Q=5 mission of ITER steady state
- Dimensionless Size Scaling of Intrinsic Rotation
- Optimization of the Plasma Response for the Control of Edge-Localized Modes with 3D Fields
