极向E×B漂移用作有效的旋转变换,以在环形电子等离子体中实现长约束时间。
Poloidal E x B drift used as an effective rotational transform to achieve long confinement times in a toroidal electron plasma.
作者信息
Stoneking M R, Growdon M A, Milne M L, Peterson R T
机构信息
Department of Physics, Lawrence University, Appleton, Wisconsin 54911, USA.
出版信息
Phys Rev Lett. 2004 Mar 5;92(9):095003. doi: 10.1103/PhysRevLett.92.095003. Epub 2004 Mar 4.
Electron plasmas with mean densities of 5.0 x 10(6) cm(-3) have been confined for as long as 18 ms in a partially toroidal trap with a purely toroidal magnetic field (B(0)=196 G, R(o)=43 cm, a=5 cm). Confinement is limited to 2.0 ms unless feedback is employed to suppress the growth of a toroidal version of the m=1 diocotron mode. The confinement time is much longer than all characteristic single-particle drift time scales and therefore confirms the existence of an equilibrium in which the space-charge-generated E x B drift acts as an effective rotational transform.
平均密度为5.0×10⁶厘米⁻³的电子等离子体,在具有纯环形磁场(B₀ = 196高斯,R₀ = 43厘米,a = 5厘米)的部分环形陷阱中被约束长达18毫秒。除非采用反馈来抑制m = 1型电子漂移模的环形版本的增长,否则约束时间限制为2.0毫秒。约束时间比所有特征单粒子漂移时间尺度长得多,因此证实了一种平衡的存在,其中空间电荷产生的E×B漂移起到有效的旋转变换作用。
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