Alcator C-MOD Weekly Highlights Jan 29, 1996 Plasma operations continued on Alcator C-MOD last week. Boronization was carried out for eight hours on Monday. Three run days were scheduled and completed. Exploration of non-standard ICRF heating schemes continued on Wednesday, with studies of second harmonic He3 minority heating (3.4-4Tesla) and H-He3 mode conversion heating (6.5-7.5Tesla). Previous attempts at second harmonic He3 heating had been unsuccessful, the problem being attributed to the presence of the hydrogen fundamental resonance in the high-field side edge region. This week's results were more positive. As a result of exploration with different He3 gas puffing and TF ramps, we found heating and obtained H-modes in the second harmonic He3 regime. With boronization, the fundamental H resonance near the edge does not appear to cause problems; rather, it appears to result in edge heating and helps attain H-mode. Heating got progressively better at higher fields (4->4.8T), presumably because the hydrogen resonance moves towards the center. It was thought that removing the edge H fundamental resonance by reducing the field (BT<3.4T) might result in better heating, but the 2nd harmonic H resonance comes in on the low field side and caused problems (increased impurity and reduced heating). Density and He3 concentration were varied at a stationary BT of 4.2T. Lower density and lower He3 concentration seemed to work better, somewhat contrary to expectations. This scenario will probably work much better in combination with 40MHz (fundamental He3 minority heating), which can greatly enhance 2nd harmonic He3 absorption at 80MHz. Thursday's run continued our studies of H-modes with boronized walls using H-minority heating at 5.3 Tesla. A density scan was carried out at a plasma current of 1.1MA, corresponding to edge q just over 3. During this scan, the fast scanning probe was used to observe the SOL. The best shots were under similar conditions to the best shots of last week, with similar but slightly reduced performance. H-mode studies continued on Friday with a study of threshold conditions. This run plan called for a controlled scan of density and current, with RF powers stepped up gradually so as to find the global and local H-mode thresholds. The focus was on obtaining well diagnosed conditions at the threshold, not necessarily long or record-breaking H-modes. A density scan was performed at a fixed 800kA equilibrium. A quick analysis confirms that Te at the 95% surface is always close to 200 eV at the L-H transition, with density varying over a factor of two. The behavior at the H-L threshold is less clear. An interesting aspect of this scan was the behavior near the low-density limit. As the limit is approached the power threshold climbs steeply. Shortly before the L-H transition, the radiated power was observed to drop, and the edge temperature rose to the typical threshold value. Additional cases at 1.1MA indicated that the edge Te at the L-H transition was higher at the higher Ip. At 800kA the Fast Scanning probe was used to obtain SOL profiles both in H-mode and just before the L-H transition. Additional boronization is scheduled for Monday night, and a full four-day run scheduled is planned for this week.