Alcator C-MOD Weekly Highlights Jan. 30, 1995 Alcator C-MOD operation continued this week. Four run days were carried out as scheduled. The principal experiments included ICRF heating, high elongation equilibria, and divertor detachment studies with ICRF and different geometries. The effects of increasing RF power on divertor parameters, including detachment characteristics, were studied in a series of discharges on Wednesday. The standard lower SN configuration with the strikepoints on the inclined divertor plates was used. RF power was varied during the pulse at constant core density and plasma current; several target densities were explored. Increases in divertor density and temperature, as well as divertor radiation, were observed, with the divertor density being affected more than Te. The divertor radiation shifted from near or above the x-point down to the vicinity of the strikepoint as the power was increased. For discharges which were initially completely detached, a low initial RF power level was sufficient to reattach most of the common flux region; however, the separatrix and private flux regions remained detached up to the highest powers used. Experiments to optimize the gain settings on the vertical position control for high elongation equilibria were carried out on Thursday. A systematic mapping of the proportional and derivative gain space was performed for a constant equilibrium configuration with elongation around 1.75, with amplitude and frequency of the observed vertical oscillations being tabulated, as well as disruptivity. These results are being compared with modeling predictions based on the perturbational equilibrium approach. Using optimized gain settings based on these experiments, we then increased the elongation up to 1.85, and maintained this configuration for the entire flattop without disruption. This marked the first time we had exceeded our nominal design elongation of 1.8 in a sustained manner. Experiments on the effect of divertor geometry on detachment were continued on Friday. The "flat-plate" geometry, with the strikepoints located on the top of the divertor structures, proved to be significantly harder to detach than either the standard or "slot" configurations. The line-averaged density was raised to 3.4e20 in 800kA ohmic discharges with the "flat-plate" geometry, but complete detachment was not obtained except with impurity injection. The density at which local detachment was obtained (2.9e20) was clearly higher than that for comparable inclined plate (2.1e20) and slot (1.7e20) configurations. The multi-pulse NdYAG core Thomson Scattering system observed scattered photons for the first time this week. Earl Marmar participated in a meeting of the DIII-D program advisory committee in San Diego. While there, he also presented a talk to the DoE-JAERI Technical Planning Meeting, summarizing the C-Mod program (results and plans), and one to the TPX physics meeting, concentrating on C-Mod divertor results. Prof. Ian Hutchinson presented a seminar on recent C-MOD results at PPPL.