Alcator C-MOD Weekly Highlights May 30, 1995 Plasma operations continued on Alcator C-Mod last week. Four runs were scheduled and completed. ICRF and edge plasma studies were the principal topics. Over 120 plasma shots were obtained during the four run days. H-mode operation with ICRF heating was explored on Tuesday. The outer gap was adjusted dynamically to maintain loading during the L-H transition. Elongation and triangularity were scanned to investigate the effect on H-mode confinement. No improvement was observed with increasing triangularity, up to about 0.6. Wednesday and Thursday were devoted to alternate heating scenarios, using our fixed frequency 80MHz transmitters. Second harmonic heating of He3 (in D) was attempted, with the toroidal field between 3.6 and 4.0 Tesla. This scenario was unsuccessful. The plasmas were apparently dirty, and had high radiated power during the RF. This may have been associated with low single pass absorption, and the presence of the hydrogen resonance near the plasma edge. H fundamental minority heating in a He3 majority plasma was also attempted, with fields between 5 and 5.8 Tesla; heating was observed, but there was still substantial D in the plasma, so the experiment was not conclusive. Successful second harmonic H minority heating (in D+ majority) was obtained at 2.6 Tesla. This is a standard heating scenario in JT-60U. The lower field was obtained by ramping the field down following breakdown at 5 Tesla, so the power deposition was moving during the heating pulse. The objective of Friday's run was to inject impurities (CH4) at the inner wall and at the divertor with the NINJA (capillary) system and follow the spatial spreading with the CCD cameras and filters from B-side and B-top. Upper and lower single null and inner wall limited discharges were compared. In addition, impurity screening was measured in each condition. In the lower null configuration, CII and CIII were observed with the B-side CCD camera in alternate discharges: in both cases the flow was clearly seen going towards the divertor. Density was scanned from 1.5 t0 3e20/m3. A similar density range was studied with an upper null geometry (ion grad-B drift away from the x-point). Again the plume directions indicated flow toward the x-point. Clear evidence of toroidal flow was observed in positions which, with the upper X-point , should be close to the stagnation point. Good fast scanning probe (FSP) data were obtained for these discharges, which should allow us to compare the flow estimated from the plumes with that estimated from the ratio of the parallel and antiparallel Isat on the FSP. Next we studied the injection of CH4 into inner-wall, limited discharges. As was to be expected the impurities were ionized rapidly and the CII distribution was a small (10-20 mm) diameter symmetric blob. The CIII appeared to spread all round the inner column but was also roughly symmetric. Dr. Kimura of the JT-60U ICRF Group was visiting C-MOD all week, and participated in the ICRF runs. Ian Hutchinson visited the ITER San Diego Co-center last week, and presented a talk on recent C-MOD results of particular interest to ITER. He also visited DIII-D. Upcoming events: Operation will continue next week. Plans include first operation at increased toroidal field (7.9 Tesla).