Starting from a phase space conserving gyrokinetic formulation, a systematic derivation of parallel momentum conservation uncovers a novel mechanism by which microturbulence may drive intrinsic rotation. This mechanism, which appears in the gyrokinetic formulation through the parallel nonlinearity, emerges due to charge separation induced by the polarization drift. The derivation and physical discussion of this mechanism will be pursued throughout this Letter
We demonstrate with a nonlinear magnetohydrodynamic (MHD) code that angular momentum can be transpor...
We derive a self-consistent equation for the turbulent transport of toroidal angular momentum in tok...
A mechanism for turbulent acceleration of parallel rotation is discovered using gyrokinetic theory. ...
International audienceStarting from a phase space conserving gyrokinetic formulation, a systematic d...
Beginning from a phase space conserving gyrokinetic formulation, a systematic derivation of parallel...
A set of the electrostatic toroidal gyrokinetic Vlasov equation and the Poisson equation, which expl...
The transport of parallel momentum by small scale fluctuations is intrinsically linked to symmetry b...
A set of the electrostatic toroidal gyrokinetic Vlasov equation and the Poisson equation, which expl...
The turbulent convective flux of the toroidal angular momentum density is derived using the nonlinea...
The symmetry of a physical system strongly impacts on its properties. In toroidal plasmas, the symme...
Toroidal rotation and associated E×B shear flow are believed to play important roles in controlling ...
The exact momentum conservation laws for the nonlinear gyrokinetic Vlasov-Poisson equations are deri...
A novel mechanism for the generation and amplification of intrinsic rotation at the low-mode to high...
Self-consistent equations for intrinsic rotation in tokamaks with small poloidal magnetic field $B_p...
The paper derives the gyro-kinetic equation in the comoving frame of a toroidally rotating plasma, i...
We demonstrate with a nonlinear magnetohydrodynamic (MHD) code that angular momentum can be transpor...
We derive a self-consistent equation for the turbulent transport of toroidal angular momentum in tok...
A mechanism for turbulent acceleration of parallel rotation is discovered using gyrokinetic theory. ...
International audienceStarting from a phase space conserving gyrokinetic formulation, a systematic d...
Beginning from a phase space conserving gyrokinetic formulation, a systematic derivation of parallel...
A set of the electrostatic toroidal gyrokinetic Vlasov equation and the Poisson equation, which expl...
The transport of parallel momentum by small scale fluctuations is intrinsically linked to symmetry b...
A set of the electrostatic toroidal gyrokinetic Vlasov equation and the Poisson equation, which expl...
The turbulent convective flux of the toroidal angular momentum density is derived using the nonlinea...
The symmetry of a physical system strongly impacts on its properties. In toroidal plasmas, the symme...
Toroidal rotation and associated E×B shear flow are believed to play important roles in controlling ...
The exact momentum conservation laws for the nonlinear gyrokinetic Vlasov-Poisson equations are deri...
A novel mechanism for the generation and amplification of intrinsic rotation at the low-mode to high...
Self-consistent equations for intrinsic rotation in tokamaks with small poloidal magnetic field $B_p...
The paper derives the gyro-kinetic equation in the comoving frame of a toroidally rotating plasma, i...
We demonstrate with a nonlinear magnetohydrodynamic (MHD) code that angular momentum can be transpor...
We derive a self-consistent equation for the turbulent transport of toroidal angular momentum in tok...
A mechanism for turbulent acceleration of parallel rotation is discovered using gyrokinetic theory. ...