In tokamaks magnetic islands arise from an unstable process of tearing and reconnecting of helical field lines across rational surfaces. After a linear stage the magnetic instability develops through three characteristic nonlinear stages where increasingly complex topological alterations occur in the form of the magnetic islands. The problem of response of reconnection process to the injection of an external current suitably localized is addressed using a four-field model in a plane slab plasma, with a novel extension to account consistently of the relevant neoclassical effects, such as bootstrap current and pressure anisotropy. The results found have implications on the interpretation of the possible mechanism of present day experimental r...
Abstract. The physics of a locked magnetic island chain maintained in the pedestal of an H-mode toka...
A new drift-kinetic theory of the ion response to magnetic islands in tokamak plasmas is presented. ...
Numerical studies of the nonlinear evolution of coupled magnetohydrodynamic - type tearing modes in ...
In tokamaks magnetic islands arise from an unstable process of tearing and reconnecting of helical f...
In tokamaks magnetic islands arise from an unstable process of tearing and reconnecting of helical fi...
The effects of a small, externally imposed, nonaxisymmetric magnetic field perturbation on magnetic ...
International audienceA 6-field reduced-MHD model is derived for plasma dynamics. The new model desc...
The tearing mode instability and the associated magnetic islands can lead to a degradation of tokama...
A major limit to steady state and advanced high $\beta_{\rm p}$ operation of tokamaks of reactor cla...
International audienceA self-consistent fluid model for describing Neoclassical Tearing Modes in glo...
This thesis deals with the theory of active stabilization of the so-called Neoclassical Tearing mode...
The evolution of neoclassical tearing modes (NTMs) is usually described by the generalized Rutherfor...
Neoclassical tearing modes (NTMs) can lead to disruption and loss of confinement. Previous analysis ...
Abstract. The physics of a locked magnetic island chain maintained in the pedestal of an H-mode toka...
A new drift-kinetic theory of the ion response to magnetic islands in tokamak plasmas is presented. ...
Numerical studies of the nonlinear evolution of coupled magnetohydrodynamic - type tearing modes in ...
In tokamaks magnetic islands arise from an unstable process of tearing and reconnecting of helical f...
In tokamaks magnetic islands arise from an unstable process of tearing and reconnecting of helical fi...
The effects of a small, externally imposed, nonaxisymmetric magnetic field perturbation on magnetic ...
International audienceA 6-field reduced-MHD model is derived for plasma dynamics. The new model desc...
The tearing mode instability and the associated magnetic islands can lead to a degradation of tokama...
A major limit to steady state and advanced high $\beta_{\rm p}$ operation of tokamaks of reactor cla...
International audienceA self-consistent fluid model for describing Neoclassical Tearing Modes in glo...
This thesis deals with the theory of active stabilization of the so-called Neoclassical Tearing mode...
The evolution of neoclassical tearing modes (NTMs) is usually described by the generalized Rutherfor...
Neoclassical tearing modes (NTMs) can lead to disruption and loss of confinement. Previous analysis ...
Abstract. The physics of a locked magnetic island chain maintained in the pedestal of an H-mode toka...
A new drift-kinetic theory of the ion response to magnetic islands in tokamak plasmas is presented. ...
Numerical studies of the nonlinear evolution of coupled magnetohydrodynamic - type tearing modes in ...