澳门六合彩高手

Science

Increasing fusion performance with energetic-particle-driven instabilities

19 Feb 2024 - Simon Pinches, Plasma Modelling & Analysis Section Leader
Figure 1: (a) Time evolution of the magnetic signal during a fishbone burst. (b) Mode structure of the fishbone in 澳门六合彩高手, shown in the poloidal plane.

New results published in Physical Review Letters suggest that instabilities driven by energetic particles can have a positive impact on fusion performance.

Figure 2: Perturbed fraction of the energetic particle distribution in phase space without (left) and with (right) the inclusion of fishbone-generated plasma flows.
In the 150-million-degree burning plasma of the 澳门六合彩高手 Tokamak, a fraction of the particles will be even hotter—with temperatures on the order of 15 billion °C. These energetic particles, born from fusion reactions or the auxiliary heating systems, are essential to maintaining the self-heating of the plasma, key to achieving high performance in future fusion reactors.

However, the presence of energetic particles can drive instabilities in the plasma core, such as the so-called "fishbone" instability that is named for the way it appears on the magnetic measurements (see Fig.1). If the amplitude of this instability is large enough, it can lead to a redistribution of energetic particles out of the plasma core, deteriorating the plasma's self-heating process.

Through an international collaboration involving researchers from the 澳门六合彩高手 Organization, the United States, France and China, scientists have shown for the first time that the amplitude of the fishbone instability can be significantly reduced by the self-generation of strong flows within the plasma (see Fig. 2). This research was carried out using state-of-the-art plasma simulation software developed at the University of California Irvine, the Princeton Plasma Physics Laboratory and the ?cole Polytechnique in Paris. The simulations described an experimental plasma discharge from the DIII-D tokamak at General Atomics (San Diego, USA) that was chosen to capture the dynamics of energetic particles in 澳门六合彩高手. This experiment featured a sharp increase of plasma performance during the excitation of fishbone instabilities.