Department of Physics, University of Wisconsin-Madison, Madison, Wisconsin 53706, USA.
Electrical Engineering Department, University of Wisconsin-Madison, Madison, Wisconsin 53706, USA.
Phys Rev Lett. 2019 Mar 15;122(10):105001. doi: 10.1103/PhysRevLett.122.105001.
Zonal flow appears in toroidal, magnetically confined plasmas as part of the self-regulated interaction of turbulence and transport processes. For toroidal plasmas having a strong toroidal magnetic field, the zonal flow is predominately poloidally directed. This Letter reports the first observation of a zonal flow that is toroidally directed. The measurements are made just inside the last closed flux surface of reversed field pinch plasmas that have a dominant poloidal magnetic field. A limit cycle oscillation between the strength of the zonal flow and the amplitude of plasma potential fluctuations is observed, which provides evidence for the self-regulation characteristic of drift-wave-type plasma turbulence. The measurements help advance understanding and gyrokinetic modeling of toroidal plasmas in the pursuit of fusion energy.
带状流作为湍流和输运过程的自调节相互作用的一部分,出现在环形、磁约束等离子体中。对于具有强环形磁场的环形等离子体,带状流主要是极向指向的。这封信件报告了首次观察到的环形指向的带状流。这些测量是在具有主导极向磁场的反向磁场点等离子体的最后一个闭路磁面内进行的。在带状流强度和等离子体电势涨落幅度之间观察到一个极限环振荡,这为漂移波型等离子体湍流的自调节特性提供了证据。这些测量有助于推进对环形等离子体的理解和回旋动理学建模,以追求聚变能。