Alcator C-MOD Weekly Highlights Nov. 28, 1994 Plasma operation is continuing on Alcator C-MOD. Due to the holiday, only three run days were scheduled last week. Nevertheless, excellent progress was made. Following Monday's run, during which standard tokamak plasmas were produced in the inner-wall limiter configuration, we began setting up diverted discharges. On Tuesday, 800 kA lower single null diverted discharges similar to those run during June of this year were re-established. The re-start mini-proposal was declared completed. Wednesday's run was devoted to a new mini-proposal (MP#065), to develop orthogonal control techniques for the plasma shape. The plasmas were lower single null, similar to those run on Tuesday. Good progress was made on this task. The orthogonal controllers for plasma current and R and Z centroid were installed and tuned up. Those for inner gap, and R and Z location of the active x-point were installed and seem to work correctly, but not completely optimized. The direct current control on all PF coils (except for EF4) was turned off during the portion of the shot for which the shape controlers were active. Controllers for the position of the upper x-point were installed, but not yet tuned up. This needs to be completed and a more thorough exercising of the control to demonstrate orthogonal behavior must be carried out to complete this experiment. Once this is accomplished, development of new equilibria should be greatly simplified. In the course of Wednesday's run, several ohmic H-mode transitions were obtained. These shots were well diverted with B=5.3 Tesla and density greater than 1e20/m^3. No special wall conditioning had been done prior to these discharges. Several disruptions were produced during this week's operation. The new halo current diagnostics, including the re-designed divertor shunts and the new segmented toroidal rogowski coil, are operational and the data is being analyzed. Initial indications point to a significant n=1 component in the halo currents. Diagnostics are continuing to come on-line. The bolometer arrays, Moly monitor, and the McPherson UV spectrometer are now operational. The ECE Michaelson electron temperature diagnostic was on-line for plasma operation, with calibration being carried out today. Progress is also being made on the ICRF system. The #1 transmitter has produced 2 MW for a one second pulse into a dummy load. The external resonant loops for both the D- and E-port antennas have been installed. As part of our ongoing collaboration with scientists from Los Alamos National Laboratory, Glenn Wurden visited C-Mod from Nov. 20 through Nov. 23. He came to discuss the details of an experiments planned for CY '95 in which a fast CCD camera will be used used to view various phenomena, e.g. pellet ablation, disruptions, etc. In addition, for this visit he brought an IR TV camera which we set up to view the inner wall. In two days of running we were able to observe the following: 1) During the shot there was plasma light emitted in the wavelength band which the camera viewed (~2 to 3.5 microns). This is probably due to atomic hydrogen emission. 2) A few seconds after the shot the temperature of inner wall tiles increased by a few degrees C. While the magnitude is understandable, the delay is still not understood. 3) The IR TV images showed clearly a tile which we knew to have poorer thermal contact with the wall. They also showed that the leading edges of the tiles were hotter than the rest of the surface. Ben Welch is visiting this week from the University of Maryland. His high resolution spectroscopy diagnostic is now installed and operational. Dr. Earl Marmar is in Russia this week for a meeting of the ITER diagnostics group.