Alcator C-MOD Weekly Highlights March 4, 1996 Plasma operations continued on Alcator C-MOD last week. This was the final week of the winter campaign, and four run days were scheduled and completed, with three extended runs lasting until 9PM. The last two days of operation featured reversed toroidal field and current. This week was quite successful, with good data obtained in support of six Mini-proposals. Rho-star scaling experiments in H-mode were carried out on Monday. These experiments, which are part of a PhD thesis research program, involve operating at different toroidal fields with density and temperature adjusted to give constant nustar and beta, leaving the normalized gyrosize as the plasma parameter being varied. Earlier runs had addressed L-mode plasmas; H-mode experiments are technically more difficult, because of the difficulty of controlling the density. In this run, we were successful in producing an H-mode at 2.75Tesla, using second harmonic ICRF heating, that forms a good match in nustar and beta with H-mode shots at 5.5T. Beta-normal for these shots was 1.4. A 12 1/2 hour run on Tuesday was devoted to dissipative divertor studies in high power H-mode plasmas. Neon, argon, and nitrogen were injected as radiating impurities. Nitrogen was most successful in increasing the fraction of radiation outside the separatrix, and in producing divertor detachment. The main effect with Ne and Ar was to raise the core radiation. Nitrogen puffing produced detached-divertor H-modes with good core confinement (H~1.8). Shots from this sequence included some with the highest stored energy and neutron rates obtained on C-MOD to date. The UV spectrum was scanned with the McPherson spectrograph viewing the x-point region; the scan confirmed that nitrogen was a strong radiator around the x-point, with states up to N-VII (hydrogen-like) contributing. A piggyback experiment on Monday's run involved the use of "killer" pellets (gold and silver) to dissipate the plasma energy rapidly and reduce the electromagnetic and plasma energy ending up on divertor hardware due to VDE disruptions. These experiments are in support of ITER, which plans to use such a technique to ameliorate disruption damage. VDE's were induced by turning off the vertical position feedback, and gold or silver-doped polyethylene pellets were injected using the LPI. Two attempts to inject gold pellets were unsuccessful. Four silver-doped pellets were injected, and in one case the pellet was found to speed up the quench and reduce halo currents. On Wednesday, the buss work was changed to allow reverse-field and current operation for the last two operating days of the campaign. Wednesday also served as the maintenance day for this week. A fresh layer of boronization was applied over Wednesday night. Following checkout of all the coil systems and power supplies in the reverse configuration, and a sequence of shots to optimize the startup, the first reverse-field run was devoted to completion of the dimensionless identity comparison with DIII-D (MP85). The plan for these experiments, a collaboration between DIII-D and C-MOD, was to produce L-mode shots with the same values of nustar, rhostar, and beta on the two machines (with different sizes and fields) to test the concept of dimensionless similarity. Initial experiments on both machines were carried out last year. The present run was intended to remedy some discrepancies in radiated power fraction and obtain additional profile data for the detailed comparison. The results are now being analyzed. The first part of Friday's run involved a study of the dependence of cross-field SOL drifts on the field direction. Previous measurements, prior to boronization, showed there were strong in-out divertor asymmetries which reversed with toroidal field; these were ascribed to the effects of cross-field drift flows. Boronization raised the SOL power and changed the atomic species mix and the radiation. The run in reverse field was carried out for comparison with data obtained in the normal (ion grad-B drift toward the x-point) direction. Two density scans were performed, at currents of 0.8MA and 1MA, with data being taken in the ohmic phase and at ICRF powers of 1.5 and 3MW. In addition to the edge studies, the same shots were used for an investigation of density dependence of L-mode confinement (MP140A). H-mode transitions were obtained for the first time on C-MOD in the reverse-field configuration. The second part of the run was in support of a proposed dimensionless identity experiment to be carried out in collaboration with ASDEX-U, analogous to the DIII-D comparison described above. The main technical difficulty in this comparison is matching the shape, since ASDEX-U operates with a considerably lower triangularity than is normal for C-MOD. WE succeeded in reducing the upper triangularity to 0.25, but did not get to the nominal target shape of delta_u=0.1; delta_l is restricted by the divertor structure to be around 0.5. Profile scans using the HIREX were carried out with nebars of 2.5 and 2e20. Several (unwanted) H-mode transitions were observed. The 1995-96 winter operating campaign is now concluded. Since October 1995 we have had 54 run days in support of 30 Mini-proposals; a total of 1090 plasmas were produced. C-MOD is now beginning an extended maintenance and upgrade interval. Plasma operations will resume this summer.