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Changes in core electron temperature fluctuations across the ohmic energy confinement transition in Alcator C-Mod plasmas

机译:Alcator C-Mod等离子体中整个欧姆能量限制跃迁的核心电子温度波动的变化

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摘要

The first measurements of long wavelength (κ_yρ_s < 0.3) electron temperature fluctuations in Alcator C-Mod made with a new correlation electron cyclotron emission diagnostic support a long-standing hypothesis regarding the confinement transition from linear ohmic confinement (LOC) to saturated ohmic confinement (SOC). Electron temperature fluctuations decrease significantly (~40%) crossing from LOC to SOC, consistent with a change from trapped electron mode (TEM) turbulence domination to ion temperature gradient (ITG) turbulence as the density is increased. Linear stability analysis performed with the GYRO code (Candy and Waltz 2003 J. Comput. Phys. 186 545) shows that TEMs are dominant for long wavelength turbulence in the LOC regime and ITG modes are dominant in the SOC regime at the radial location (ρ ~ 0.8) where the changes in electron temperature fluctuations are measured. In contrast, deeper in the core (p < 0.8), linear stability analysis indicates that ITG modes remain dominant across the LOC/SOC transition. This radial variation suggests that the robust global changes in confinement of energy and momentum occurring across the LOC/SOC transition are correlated to local changes in the dominant turbulent mode near the edge.
机译:利用新的相关电子回旋加速器发射诊断仪对Alcator C-Mod中的长波长(κ_yρ_s<0.3)电子温度波动进行的首次测量,支持了关于从线性欧姆约束(LOC)到饱和欧姆约束​​的约束转变的长期存在的假设( SOC)。从LOC到SOC,电子温度波动显着降低(〜40%),这与密度增加时从俘获电子模式(TEM)湍流占主导地位向离子温度梯度(ITG)湍流的转变一致。使用GYRO代码执行的线性稳定性分析(Candy和Waltz 2003 J. Comput。Phys。186 545)显示,TEM在LOC模式下对长波长湍流占主导地位,而ITG模式在径向位置的SOC模式下占主导地位(ρ 〜0.8)测量电子温度波动的变化。相反,在核心更深处(p <0.8),线性稳定性分析表明,ITG模式在LOC / SOC转换过程中仍占主导地位。这种径向变化表明,在LOC / SOC转换过程中发生的能量和动量限制范围内的鲁棒全局变化与边缘附近显性湍流模式的局部变化相关。

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  • 来源
    《Nuclear fusion》 |2013年第8期|083010.1-083010.13|共13页
  • 作者

    C. Sung; A.E. White; N.T. Howard; C.Y. Oi; J.E. Rice; C. Gao; P. Ennever; M. Porkolab; F. Parra; D. Mikkelsen; D. Ernst; J. Walk; J.W. Hughes; J. Irby; C. Kasten; A.E. Hubbard; M.J. Greenwald;

  • 作者单位

    Plasma Science and Fusion Center, Massachusetts Institute of Technology, Cambridge, Massachusetts 02139, USA;

    Plasma Science and Fusion Center, Massachusetts Institute of Technology, Cambridge, Massachusetts 02139, USA;

    Plasma Science and Fusion Center, Massachusetts Institute of Technology, Cambridge, Massachusetts 02139, USA;

    Plasma Science and Fusion Center, Massachusetts Institute of Technology, Cambridge, Massachusetts 02139, USA;

    Plasma Science and Fusion Center, Massachusetts Institute of Technology, Cambridge, Massachusetts 02139, USA;

    Plasma Science and Fusion Center, Massachusetts Institute of Technology, Cambridge, Massachusetts 02139, USA;

    Plasma Science and Fusion Center, Massachusetts Institute of Technology, Cambridge, Massachusetts 02139, USA;

    Plasma Science and Fusion Center, Massachusetts Institute of Technology, Cambridge, Massachusetts 02139, USA;

    Plasma Science and Fusion Center, Massachusetts Institute of Technology, Cambridge, Massachusetts 02139, USA;

    Princeton Plasma Physics Laboratory, Princeton, New Jersey 08543, USA;

    Plasma Science and Fusion Center, Massachusetts Institute of Technology, Cambridge, Massachusetts 02139, USA;

    Plasma Science and Fusion Center, Massachusetts Institute of Technology, Cambridge, Massachusetts 02139, USA;

    Plasma Science and Fusion Center, Massachusetts Institute of Technology, Cambridge, Massachusetts 02139, USA;

    Plasma Science and Fusion Center, Massachusetts Institute of Technology, Cambridge, Massachusetts 02139, USA;

    Plasma Science and Fusion Center, Massachusetts Institute of Technology, Cambridge, Massachusetts 02139, USA;

    Plasma Science and Fusion Center, Massachusetts Institute of Technology, Cambridge, Massachusetts 02139, USA;

    Plasma Science and Fusion Center, Massachusetts Institute of Technology, Cambridge, Massachusetts 02139, USA;

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