Title :
A negative biasing experiment to test numerical calculations based on a neoclassical L-H transition model in stellarators
Author :
Thogersen, Erik N. ; Shohet, J.L.
Author_Institution :
Torsatron/Stellarator Lab., Wisconsin Univ., Madison, WI, USA
fDate :
12/1/1996 12:00:00 AM
Abstract :
Numerical calculations based on Shaing´s L-H transition theory in stellarators and performed by Dahi et al. determine viscosity as a function of ion flow speed in the interchangeable module stellarator (IMS). The calculations predict local maximums in viscosity at flows corresponding to Mach numbers -2 and -10, but not elsewhere. The local peaks manifest themselves as jumps in flow speed, and as regions of high radial electric field (Er) shear. By inducting flows swept between Mach numbers ±5, an electron injection biasing probe revealed a jump at -2, but none at +2, in agreement with the numerical results. A series of flow profiles at constant bias confirmed this result. Altogether, these data agree well with the numerical calculations and provide support for Shaing´s L-H transition model as applied to stellarators
Keywords :
Langmuir probes; plasma density; plasma flow; plasma instability; plasma probes; plasma temperature; plasma toroidal confinement; stellarators; viscosity; L-H transition theory; Mach numbers; constant bias; electron injection biasing probe; flow profiles; flow speed; high radial electric field shear; interchangeable module stellarator; ion flow speed; local maximums; neoclassical L-H transition model; numerical calculations; stellarators; viscosity; Magnetic confinement; Performance evaluation; Plasma confinement; Plasma temperature; Predictive models; Probes; Testing; Tokamaks; Toroidal magnetic fields; Viscosity;
Journal_Title :
Plasma Science, IEEE Transactions on
