Alcator C-MOD Weekly Highlights April 18, 1995 Plasma operations continued on Alcator C-MOD last week. This week completed the two-week reversed field (and current) operation. Four run days were scheduled and completed last week. Experiments included measurements of asymmetries in neutral populations, ICRF L-mode scaling, H-mode threshold determination with the ion grad-B drift away from the x-point, and measurements of impurity transport and plume behavior using the capillary tube localized gas-injection system. Measurements of asymmetries in charge exchange flux, as measured by passive neutral particle analyzers, and in core neutral population, as determined from emission from states of hydrogen-like Ar populated by charge-exchange recombination, were measured in the reversed field configuration. Most of the data were taken with the usual lower single null orientation, with a few shots obtained with an upper x-point; the ion grad-B drift direction was upward. The previously observed asymmetry in core neutral density appeared to remain correlated with the x-point orientation, independent of the grad-B drift. The up-down asymmetry in impurity density, on the other hand, was observed to reverse with the reversed field. ICRF heating experiments were continued, with additional data on L-mode confinement scaling being obtained. Attempts to reach the H-mode threshold with the ion drift away from the x-point were unsuccessful, with a lower bound of P/nBS > 0.06 being established for these experiments. Studies of injected impurities using the capillary tube system were carried out for both upper and lower null equilibria in the reverse-field configuration. Impurities were injected at the inner wall and at the divertor, with spatial spreading (plumes) monitored by CCD cameras. These data will be used to determine plasma flows in the SOL. Impurity screening was studied using CH4, He, and Ar. Successful measurements of the spatial distributions of CII, CIII, (or HeI and HeII) were made. The neutral species H0 and HeI were approximately symmetric. The plumes from impurity ions were almost always towards the divertor target, i.e. they reversed when the X-point was moved from lower to upper. Exceptions were that the plume went away from the x-point during current rampdown, when there was a very large CH4 injection and at high density. Measurements were taken successfully with the Fast Scanning Probe under most conditions of density and impurity puffing and with both upper and lower X-point. This should allow us to extrapolate the ne and Te profile conditions to the positions where the impurities were puffed. Steve Golovato participated in discussions of the TPX ICRF antenna and outboard limiter design. He also took part in a review of the ORNL RF Technology Program. Earl Marmar was in San Diego participating in an ITER Home Team Physics Design Review. C-MOD is now entering a scheduled maintenance week; no operations are scheduled during the week beginning April 17.