Alcator C-MOD Weekly Highlights Feb. 12, 1996 Plasma operations continued last week on Alcator C-MOD. Four runs were scheduled, and despite some technical difficulties which delayed the start times on three days, all the scheduled experiments got good data. Tuesday's run was a continuation of our studies of h-mode characteristics with boronized walls. A fresh boron layer was put down overnight on Monday. A vacuum incident Tuesday morning necessitated additional D2 ECDC and delayed the start of this run. Since wall conditions clearly affect the accessibility to H-mode and the resulting quality, there was concern that this run would not be successful. However, after a few conditioning shots high quality H-modes were obtained, and all the run objectives were addressed. Small sweeps of the TF field were performed during a series of shots to provide a fine-scale spatial scan for the ECE Grating Polychromator, to obtain better resolution on the edge Te profile. The flattop toroidal field was then varied over several shots from the nominal 5.3T up to 6.0T, placing the resonance up to 9cm off-axis. Good heating was observed at all these fields, in contrast to earlier results in which substantial degradation in heating was observed for off-axis heating. Li pellets were injected on two shots, but good PEP modes were not obtained. Extra D2 puffing in the divertor was tried as a means of increasing the divertor dissipation during the H-mode. Operating at 5.8T we raised the current to 1.2MA (q95~3.4) and again observed improved confinement, with stored energies over 200kJ. On Wednesday we continued our 7.9T H-mode studies, using D(He3) minority heating. The start of the run was again delayed, this time due to a fault in control circuitry at the alternator. Once the run started, good H-modes were obtained, including some at a target density around 1.4e20, which is the lowest value yet obtained at this field, though still higher than the low-density limit at 5.3T. H-factors up to 1.5 (assuming 100% power absorption) were obtained; attempts to determine the actual absorbed power fraction by notching off the RF and observing the change in slope of the diamagnetic and MHD equilibrium stored energies indicated the actual absorbed power was somewhat less. Thursday's run involved a study of plumes from trace gas injection using the capillaries in the divertor and inner wall. This run was in support of PhD thesis research. Attempts to observe plumes in NI using a newly-installed filter were unsuccessful, although the line was observed on the Chromex spectrometer. HeII and NII plumes were observed, and moved toward the x-point as expected from previous experiments. However, plumes on upper x-point shots appeared more symmetric, with a possibility of flow-reversal, in contrast to carbon (methane) plumes observed in upper x-point discharges last year. Plumes from the divertor capillaries were observed with the B-top camera. In one shot, nitrogen was puffed on the top of the inner and outer divertor noses simultaneously, and the resulting plumes were observed to go in opposite directions (CW and CCW, as appropriate), towards the corresponding strike point. Friday's run was the first of a series of runs aimed at optimizing dissipative divertor operation in h-mode operation with boronized walls. The idea is to introduce radiating impurities into the divertor to increase divertor radiation, in some cases induce detachment, thus reducing the power flow to the target plate. In this run, Neon was used as the radiating impurity. Future runs will employ Ar and N2. This run was also delayed, because of a problem with the Hybrid plasma control computer, eventually traced to a faulty ribbon cable. Once the run started a total of 21 successful shots were obtained. Detached divertor operation was obtained with up to 2MW entering the SOL. The Time-of-flight neutral particle analyzer is now under vacuum. The instrument is a collaboration between LANL and MIT and is expected to be installed during the upcoming shutdown. Systems are being checked and brought online. Bruce Lipschultz is at GA this week, serving on the DIII-D Program Advisory Committee. Plasma operations are scheduled to continue next week, with continuations of h-mode and dissipative divertor studies at 5.3 and 7.9T.