Much is known about the behavior of energetic ions in tokamak devices but much remains to be understood. Single-particle effects are well understood and provide a firm basis for extrapolation to a burning plasma. In contrast, collective effects involving fast ions are more poorly understood and extrapolations are unreliable. Collective modes of concern include toroidicity-induced and ellipticity-induced Alfvén eigenmodes, kinetic ballooning modes, and internal kink modes. In addition to these magnetohydrodynamic normal modes, there are also energetic particle modes characterized by strong dependence on the fast-ion distribution function. Although many issues are important areas of study in current experiments, five issues distinguish burnin...
Recently-proposed tokamak concepts use magnetic fields up to 12 T, far higher than in conventional d...
The hot-ion-mode of operation [1] has long been thought to offer optimized performance for long-puls...
The stability of high-n toroidicity-induced shear Alfven eigenmodes (TAE) in the presence of fusion ...
Much is known about the behavior of energetic ions in tokamak devices but much remains to be underst...
In burning plasma experiments, the very energetic alpha (alpha) particles resulting from a deuterium...
Fast ions with energies significantly larger than the bulk ion temperature are used to heat most tok...
A summary is presented of recent alpha-particle experiments on the tokamak fusion test reactor. Alph...
This chapter reviews the progress accomplished since the redaction of the first ITER Physics Basis (...
The tokamak is so far the most promising magnetic configuration for achieving a net production of fu...
This paper summarizes our present understanding of the following energetic/alpha particle physics is...
Alfvén eigenmodes (AEs) driven by energetic alpha particles can lead to enhanced fast ion transport ...
The burning plasmas of the next generation tokamak fusion experiment ITERwill contain signicant popu...
Alpha particles will play a critical role in the physics and successful operation of ITER. Achieving...
High-energy ions generated by fusion reactions in a burning fusion plasma may give rise to different...
In magnetic confinement fusion reactor plasmas, the charged fusion products (such as alpha particles...
Recently-proposed tokamak concepts use magnetic fields up to 12 T, far higher than in conventional d...
The hot-ion-mode of operation [1] has long been thought to offer optimized performance for long-puls...
The stability of high-n toroidicity-induced shear Alfven eigenmodes (TAE) in the presence of fusion ...
Much is known about the behavior of energetic ions in tokamak devices but much remains to be underst...
In burning plasma experiments, the very energetic alpha (alpha) particles resulting from a deuterium...
Fast ions with energies significantly larger than the bulk ion temperature are used to heat most tok...
A summary is presented of recent alpha-particle experiments on the tokamak fusion test reactor. Alph...
This chapter reviews the progress accomplished since the redaction of the first ITER Physics Basis (...
The tokamak is so far the most promising magnetic configuration for achieving a net production of fu...
This paper summarizes our present understanding of the following energetic/alpha particle physics is...
Alfvén eigenmodes (AEs) driven by energetic alpha particles can lead to enhanced fast ion transport ...
The burning plasmas of the next generation tokamak fusion experiment ITERwill contain signicant popu...
Alpha particles will play a critical role in the physics and successful operation of ITER. Achieving...
High-energy ions generated by fusion reactions in a burning fusion plasma may give rise to different...
In magnetic confinement fusion reactor plasmas, the charged fusion products (such as alpha particles...
Recently-proposed tokamak concepts use magnetic fields up to 12 T, far higher than in conventional d...
The hot-ion-mode of operation [1] has long been thought to offer optimized performance for long-puls...
The stability of high-n toroidicity-induced shear Alfven eigenmodes (TAE) in the presence of fusion ...