Dr
Princeton Plasma Physics Laboratory
Author in the following contributions
- EX/P4-31: Addressing New Challenges for Error Field Correction
- TH/P2-27: Study of Neoclassical Toroidal Viscosity in Tokamaks with a delta-f Particle Code and Resonant Nature of Magnetic Braking
- EX/P8-07: Global Mode Control and Stabilization for Disruption Avoidance in High-Beta NSTX Plasmas
- FTP/3-4: Progress on Developing the Spherical Tokamak for Fusion Applications
- FTP/3-4: Progress on Developing the Spherical Tokamak for Fusion Applications
- EX/11-2: The Nearly Continuous Improvement of Discharge Characteristics and Edge Stability with Increasing Lithium Coatings in NSTX
- EX/P5-31: Liquid Lithium Divertor Characteristics and Plasma-Material Interactions in NSTX High-Performance Plasmas
- EX/P4-28: Vertical Stability of NSTX and NSTX-U
- EX/P5-21: Snowflake Divertor as Plasma-Material Interface for Future High Power Density Fusion Devices
- EX/P5-28: Dependence of the L-H Power Threshold on X-point Geometry
- EX/P4-33: Observation of Edge Harmonic Oscillation in NSTX and Theoretical Study of its Active Control Using HHFW Antenna at Audio Frequencies
- EX/P6-02: Internal Amplitude, Structure and Identification of CAEs and GAEs in NSTX
- TH/P4-18: Theory and Simulations of ELM Control with a Snowflake Divertor
- EX/P2-10:Non-inductive Plasma Start-up in NSTX Using Transient CHI
- ITR/P5-29: Error Fields Expected in ITER and their Correction
- FTP/P1-14: Recent Progress in the NSTX/NSTX-U Lithium Program and Prospects for Reactor-relevant Liquid-lithium Based Divertor Development
- FTP/P7-28: Progress in Developing a High-Availability Advanced Tokamak Pilot Plant
- EX/9-3: Disruptions in the High-beta Spherical Torus NSTX
