A new numerical solver for stiff transport predictions has been developed and implemented in the PTRANSP predictive transport code. The TGLF and GLF23 predictive codes have been incorporated in the solver, verified by comparisons with predictions from the XPTOR code, and validated by comparing predicted and measured profiles. Predictions for ITER baseline plasmas are presented
This project initiated the development of TGYRO ? a steady-state Gyrokinetic transport code (SSGKT) ...
One of the key challenges for plasma theory and simulation in view of ITER is to enhance the underst...
In the area of plasma physics the RF Participant Team (PT) is developing calculation codes in accord...
PTRANSP, which is the predictive version of the TRANSP code, was developed in a collaborative effort...
A number of proposed tokamak thermal transport models are tested by comparing their predictions with...
Gyro kinetic simulations of turbulence capture some of the features observed in transport, fluctuati...
A number of proposed tokamak thermal transport models are tested by comparing their predictions with...
Experiments at the DIII-D tokamak have used dimensionless parameter scans to investigate the depende...
Time-dependent integrated predictive modelling is carried out using the PTRANSP code to predict fusi...
Three gyro{Bohm transport models are applied to the L{mode discharges of the ITER proflle database f...
Predictive simulations of ITER [R. Aymar et al., Plasma Phys. Control. Fusion 44, 519 2002] discharg...
The GLF23 prediction model, incorporated in the TRANSP plasma analysis code, is used to predict temp...
Abstract. Recent progress on ITER steady-state scenario modeling by the ITPA-IOS group is reviewed. ...
Performance in H-mode DT plasmas in ITER with various choices of heating systems are predicted and c...
Self-consistent transport simulation of ITER scenarios is a very important tool for the exploration ...
This project initiated the development of TGYRO ? a steady-state Gyrokinetic transport code (SSGKT) ...
One of the key challenges for plasma theory and simulation in view of ITER is to enhance the underst...
In the area of plasma physics the RF Participant Team (PT) is developing calculation codes in accord...
PTRANSP, which is the predictive version of the TRANSP code, was developed in a collaborative effort...
A number of proposed tokamak thermal transport models are tested by comparing their predictions with...
Gyro kinetic simulations of turbulence capture some of the features observed in transport, fluctuati...
A number of proposed tokamak thermal transport models are tested by comparing their predictions with...
Experiments at the DIII-D tokamak have used dimensionless parameter scans to investigate the depende...
Time-dependent integrated predictive modelling is carried out using the PTRANSP code to predict fusi...
Three gyro{Bohm transport models are applied to the L{mode discharges of the ITER proflle database f...
Predictive simulations of ITER [R. Aymar et al., Plasma Phys. Control. Fusion 44, 519 2002] discharg...
The GLF23 prediction model, incorporated in the TRANSP plasma analysis code, is used to predict temp...
Abstract. Recent progress on ITER steady-state scenario modeling by the ITPA-IOS group is reviewed. ...
Performance in H-mode DT plasmas in ITER with various choices of heating systems are predicted and c...
Self-consistent transport simulation of ITER scenarios is a very important tool for the exploration ...
This project initiated the development of TGYRO ? a steady-state Gyrokinetic transport code (SSGKT) ...
One of the key challenges for plasma theory and simulation in view of ITER is to enhance the underst...
In the area of plasma physics the RF Participant Team (PT) is developing calculation codes in accord...