Poloidally asymmetric plasmsa response with ECH deposition near q=1 in TCV
A small component of ECCD exists when heating off-axis with no toroidal injection due to the field helicity. The sign of the ECCD will change depending on the absorption location in a poloidal plane, the beam injection relative to gradient of B(vac), and the direction of the toroidal magnetic field. The importance of the ECCD component can be confirmed by the behavior of the sawteeth when the ECH deposition crosses the q=1 surface. The sawtooth period is very sensitive to the local shear at q = 1 and it is shown that difference in sawtooth period when heating above and below the mid plane are consistent with the presence of a small ECCD component. Experiments have also shown that the sawtooth period is strongly determined by the absorbed ECH power near the q=1 surface. In particular significant changes in the sawtooth period are observed as the absorption location is varied on a scale smaller than the beam spot size. A narrow region of rapidly changing confinement is shown to exist near the q=1 surface to be located outside the q=1 surface by a factor of 1.3 in radii. The region can be used as a method for measuring the beam deposition width in the plasma.
Bibliographic Reference: An article published in: Elsevier Fusion Engineering and Design, 53 (2001) pp.241-248
Record Number: 200013679 / Last updated on: 2001-09-18
Original language: en
Available languages: en