TJ-II:Turbulence: Difference between revisions

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Transport in fusion-grade plasmas is often dominated by turbulent transport.
Transport in fusion-grade plasmas is often dominated by turbulent transport.
In contrast with [[Neoclassical transport]], turbulent transport (assumed to be the cause of the so-called experimental "anomalous" component of transport) is not well understood.
In contrast with [[Neoclassical transport]], turbulent transport (assumed to be the cause of the so-called experimental "anomalous" component of transport) is not well understood.
As a consequence, predictions of machine performance generally rely on rather crude scaling law techniques, rather than first-principles calculations.
Improving our understanding of turbulence is hard, due to (1) the complexity of fusion-grade plasmas (the presence of ionised particles and magnetic fields make this into a much harder topic than fluid turbulence), (2) the enormous variety of plasma instabilities, and (3) the difficulty of diagnosing the plasma due to the hostile conditions inside the plasma.


Our work on turbulence has focussed mainly on the analysis of edge probe data, although some analysis was done on reflectometry signals. A large effort was devoted to the development of new analysis techniques.
Our work on turbulence has focussed mainly on the analysis of edge probe data, although some analysis was done on reflectometry signals. A large effort was devoted to the development of new analysis techniques.