The ELMFIRE gyrokinetic simulation code has been used to perform full f simulations of the FT-2 tokamak. The dynamics of the radial electric field and the creation of poloidal velocity in the presence of turbulence are presented
A full f nonlinear 5D gyrokinetic electrostatic particle‐in‐cell code ELMFIRE using an implicit dire...
Gyrokinetic simulations have greatly improved our theoretical understanding of turbulent transport i...
Large‐scale kinetic simulations of toroidal plasmas based on first principles are called for in stud...
The ELMFIRE full f nonlinear gyrokinetic simulation code has been developed for calculations of plas...
The full f gyrokinetic code elmfire [1] has been developed to study turbulent transport in Tokamak p...
The gyrokinetic full f simulation code ELMFIRE has been used to perform the first global self-consis...
| openaire: EC/H2020/633053/EU//EUROfusionWe report new results of full-torus gyrokinetic simulation...
In the FT-2 tokamak, lower hybrid heating for ions and electrons has been used to trigger an interna...
Quantitative reproduction of selected micro, meso, and macro-scale transport phenomena as measured i...
The work described in the thesis focuses on understanding large-scale mean ExB flows, fine-scale zon...
A direct implicit ion polarization gyrokinetic full f particle-in-cell approach is implemented with ...
Quantitative reproduction of selected micro-, meso- and macro-scale transport phenomena as measured ...
The gyrokinetic full 5D particle distribution code ELMFIRE has been extended to simulate circular to...
Detailed physics of drift instabilities, such as ion temperature gradient modes (ITG) and trapped el...
Direct measurements of micro-, meso-, and macroscale transport phenomena in the FT-2 tokamak are sho...
A full f nonlinear 5D gyrokinetic electrostatic particle‐in‐cell code ELMFIRE using an implicit dire...
Gyrokinetic simulations have greatly improved our theoretical understanding of turbulent transport i...
Large‐scale kinetic simulations of toroidal plasmas based on first principles are called for in stud...
The ELMFIRE full f nonlinear gyrokinetic simulation code has been developed for calculations of plas...
The full f gyrokinetic code elmfire [1] has been developed to study turbulent transport in Tokamak p...
The gyrokinetic full f simulation code ELMFIRE has been used to perform the first global self-consis...
| openaire: EC/H2020/633053/EU//EUROfusionWe report new results of full-torus gyrokinetic simulation...
In the FT-2 tokamak, lower hybrid heating for ions and electrons has been used to trigger an interna...
Quantitative reproduction of selected micro, meso, and macro-scale transport phenomena as measured i...
The work described in the thesis focuses on understanding large-scale mean ExB flows, fine-scale zon...
A direct implicit ion polarization gyrokinetic full f particle-in-cell approach is implemented with ...
Quantitative reproduction of selected micro-, meso- and macro-scale transport phenomena as measured ...
The gyrokinetic full 5D particle distribution code ELMFIRE has been extended to simulate circular to...
Detailed physics of drift instabilities, such as ion temperature gradient modes (ITG) and trapped el...
Direct measurements of micro-, meso-, and macroscale transport phenomena in the FT-2 tokamak are sho...
A full f nonlinear 5D gyrokinetic electrostatic particle‐in‐cell code ELMFIRE using an implicit dire...
Gyrokinetic simulations have greatly improved our theoretical understanding of turbulent transport i...
Large‐scale kinetic simulations of toroidal plasmas based on first principles are called for in stud...