The fully nonlinear (full-f) 4D TEMPEST gyrokinetic continuum code produces frequency, collisionless damping of GAM and zonal flow with fully nonlinear Boltzmann electrons for the inverse aspect ratio {epsilon}-scan and the tokamak safety factor q-scan in homogeneous plasmas. The TEMPEST simulation shows that GAM exists in edge plasma pedestal for steep density and temperature gradients, and an initial GAM relaxes to the standard neoclassical residual, rather than Rosenbluth-Hinton residual due to the presence of ion-ion collisions. The enhanced GAM damping explains experimental BES measurements on the edge q scaling of the GAM amplitude
Tokamaks are toroidal machines designed to magnetically confine plasma and to host reactions of nucl...
The present paper extends the theory of geodesic acoustic mode (GAM) oscillation, which so far has b...
Global gyrokinetic particle simulation finds that the collisionless damping rate of the geodesic aco...
The fully nonlinear 4D TEMPEST gyrokinetic continuum code produces frequency, collisionless damping ...
The following results are presented from the development and application of TEMPEST, a fully nonline...
Abstract. The following results are presented from the development and application of TEMPEST, a ful...
Collisionless damping of the geodesic acoustic mode (GAM) is investigated by a drift kinetic simulat...
Barely trapped and passing electrons have been recently predicted to strongly enhance the damping ra...
Zonal flow damping Recent global gyrokinetic simulations [1] have shown the importance of the zonal ...
International audienceIn order to provide scaling formulae for the geodesic acoustic mode (GAM) freq...
Magnetic confinement fusion is a promising candidate for a future energy source. Its efficiency is l...
Gyrokinetic simulations of electrostatic microturbulence in the edge plasmas of DIII-D shot 131997 f...
The electrostatic potential and density fluctuations have been measured at the edge of the TEXTOR to...
This article introduces the fundamental principles governing zonal flows for researchers who are eng...
We report evidence of a new mechanism able to damp very efficiently geodesic acoustic mode (GAM) in ...
Tokamaks are toroidal machines designed to magnetically confine plasma and to host reactions of nucl...
The present paper extends the theory of geodesic acoustic mode (GAM) oscillation, which so far has b...
Global gyrokinetic particle simulation finds that the collisionless damping rate of the geodesic aco...
The fully nonlinear 4D TEMPEST gyrokinetic continuum code produces frequency, collisionless damping ...
The following results are presented from the development and application of TEMPEST, a fully nonline...
Abstract. The following results are presented from the development and application of TEMPEST, a ful...
Collisionless damping of the geodesic acoustic mode (GAM) is investigated by a drift kinetic simulat...
Barely trapped and passing electrons have been recently predicted to strongly enhance the damping ra...
Zonal flow damping Recent global gyrokinetic simulations [1] have shown the importance of the zonal ...
International audienceIn order to provide scaling formulae for the geodesic acoustic mode (GAM) freq...
Magnetic confinement fusion is a promising candidate for a future energy source. Its efficiency is l...
Gyrokinetic simulations of electrostatic microturbulence in the edge plasmas of DIII-D shot 131997 f...
The electrostatic potential and density fluctuations have been measured at the edge of the TEXTOR to...
This article introduces the fundamental principles governing zonal flows for researchers who are eng...
We report evidence of a new mechanism able to damp very efficiently geodesic acoustic mode (GAM) in ...
Tokamaks are toroidal machines designed to magnetically confine plasma and to host reactions of nucl...
The present paper extends the theory of geodesic acoustic mode (GAM) oscillation, which so far has b...
Global gyrokinetic particle simulation finds that the collisionless damping rate of the geodesic aco...