论文标题
相结合V.S.流层诱导边缘传输屏障动力学中的相位同步
Phase-mixing v.s. phase synchronization in the dynamics of flow-shear induced edge transport barrier
论文作者
论文摘要
可以使用现象学关键梯度模型定性地再现流层诱导传输屏障的非线性松弛振荡[M. Leconte,Y.M。 Jeon和G.S. Yun,\ emph {等离子体物理} 56,736(2016]。在这里,我们在包括随机波动的模型的扩展版本中对这些非线性振荡的机制进行了更深入的分析,与非线性\ emph {相位同步}相关的机制,与非线性\ emph {相同步}相关。
Nonlinear relaxation oscillations of flow-shear induced transport barriers can be qualitatively reproduced using a phenomenological critical-gradient model [M. Leconte, Y.M. Jeon and G.S. Yun, \emph{Contrib. Plasma Phys.} 56, 736 (2016]. Here, we give a more in-depth analysis of the mechanism of these nonlinear oscillations, associated to nonlinear \emph{phase synchronization}, in an extended version of the model including random fluctuations.
