Dr
Princeton Plasma Physics Laboratory and KAIST
Author in the following contributions
- Confinement in stellarators with the global gyrokinetic code XGC
- Gyrokinetic XGC1 Simulation Study of Magnetic Island Effects on Neoclassical and Turbulence Physics in a KSTAR Plasma
- Gyrokinetic Modeling with an Extended Magnetic Equilibrium including the Edge Region of Large Helical Device
- Pressure balance in a low collisionality tokamak scrape-off layer
- A gyrokinetic discovery of fast L-H bifurcation physics in a realistic, diverted, tokamak edge geometry
- Wide divertor heat-flux width in ITER from self-organization between the neoclassical and turbulent transports across the separatrix surface
- Comparative simulations of the plasma response to RMPs during ELM-crash mitigated and suppressed phases in KSTAR
- Overview of the KSTAR research progress and future plan toward ITER and K-DEMO
- Gyrokinetic-MHD coupled simulation of RMP plasma interaction reproduces density pump-out seen in the tokamak edge
- Total-f gyrokinetic turbulent-neoclassical simulation of global impurity transport and its effect on the main-plasma confinement
