Alcator C-MOD Weekly Highlights March 13,1995 Physics operation is continuing on Alcator C-MOD. Three runs were scheduled and completed last week. The principal experiments were concerned with measurements of 2D neutral density profiles, characterization of the SOL, and fueling characteristics with different gas puff locations. A total of nearly 100 successful plasmas were produced in the three days of operation. Neutral density profiles were measured by the HIREX diagnostic using the charge exchange recombination technique onto hydrogen-like argon (MP#049A). At a line-density of 5e19m-2, a dramatic up-down asymmetry was observed. X-ray emission from near the X-point was observed, from charge-exchange populated levels, and from radiative recombination continuum. The data were of high quality, and detailed profiles should be forthcoming once the analysis is complete. The successful completion of this experiment is particularly gratifying, as previous attempts had been plagued by a series of extraneous difficulties, including power outages, vacuum problems, etc. By contrast, this week's run went smoothly, with 36 consecutive good shots, establishing a new record for one-day consistency. The ongoing program in systematic characterization of scrape-off-layer conditions (MP084) was continued on Wednesday. Data were obtained for single-null equilibria at two currents (0.8MA and 1.0MA) with density programmed to ramp up during the shot. The fast scanning probe was inserted at three times during the shot to get data at different densities. The program on SOL characterizations for SNB ohmic discharges is now about half-completed. The NINJA system was used to study the effects of localization of the fueling on fueling efficiency and on divertor behavior (MP071B). Preliminary analysis of the data from this run indicates: (a) There is little or no difference in the effect of puffing in different poloidal and toroidal locations on central plasma parameters or edge density and temperature profiles. (b) There is little or no difference in the effect of puffing in different poloidal locations on edge neutral densities, but there is a large temporal difference in toroidally specific neutral densities for different toroidal puffing locations. (i.e. There is a much different time history of a neutral gauge at B-port for a puff at B-port compared to a puff at F-port.) (c) Impurity puffing (in the case of this run, of methane) shows up as highly directional plumes emanating from the puffing locations, indicative of strong flows at the edge. D2 fueling also usually gives rise to highly directional plumes, implying that CX or elastic collisions may be causing significant atomic flows of the injected deuterium. During operation the week of February 27, the D-port icrf system arced on one of the four feed lines in the 4" coax section. These arcs went undetected because they did not show up as significantly increased reflected power in the matched line between the transmitters and the antenna. We are developing an arc detector based on the balance between the voltage probes in the two feeds to each strap since the reflected power back in the matched line was not affected much by these arcs and did not trip the transmitter. We are also implementing an optical arc detection system which will look through one of the 4" 45 degree bends and view both the one 4" Teflon insulator and the vacuum feedthrough in each line. After cleanup of the arc residue, we will evaluate the power handling capability this week. Martin Greenwald attended the Transport Task Force Meeting in Los Angeles last week, and this week will be participating in the ITER Expert Group meetings on Confinement and Confinement Databases at the Joint Work Site in San Diego.