Alcator C-MOD Weekly Highlights Feb 26, 1996 Plasma operations continued on Alcator C-MOD last week. This was a difficult week, with technical problems resulting in the effective cancellation of three of the four scheduled run days. An extended run (12 1/2 hours) was carried out successfully on Friday, allowing most of the content of two of the scheduled experiments to be accomplished. The first 8 hours of this run was devoted to research in support of two graduate student theses. Operation on Friday of the previous week had been curtailed because of the failure of a breaker feeding 13.8kV AC power to the poloidal field supplies. The burned out motor on this breaker was replaced on Monday, and operation scheduled to resume on Tuesday. However, the pf breaker still was not functioning correctly. An unrelated problem with the pulsed gas feed system was successfully debugged and fixed. On Thursday, the PF breaker was removed from its cabinet and replaced by a breaker from one of the toroidal field supplies. This enabled us to operate at reduced field while awaiting repair of the old PF breaker. Since the run scheduled for Friday, already rescheduled from earlier in the week, called for fields of 3.4T and below, this was an acceptable option. Our standard technique for running low-field plasmas is to initiate the discharge at high field, e.g. 4.8T, and ramp the TF down to the desired operating point. Since this option was not available with only two TF cabinets operating, we reverted to a low-field startup scenario, which required some setup and development, which was carried out between 7:30 and 9PM on Thursday. Friday's run began with experiments in support of MP#141, RF edge effects. The purpose of these experiments was to study the thresholds and saturation levels of edge ion heating and RF decay waves during Parametric Decay Instabilities in ICRH plasmas. This research is involved in the thesis projects of two Ph.D. students. Principal diagnostics included the PCX neutral particle analyzer and RF probes, including a newly installed scanning probe. Experiments were carried out at 3.4T and 2.8T, with the RF power being varied in steps from 0.1 to 0.8MW. It was felt that the studies would be best carried out in L-mode, but H-modes occurred on many of these shots. Nevertheless, useful data was obtained. The breaker which had been removed from the power room was inspected and repaired onsite by an outside contractor during Friday morning. This breaker was replaced in the power room, and confirmed to be operating nominally, and the run was continued, with full-field capability restored. At 5PM a new experimental sequence was begun, to study access to the ERS mode and to pursue our studies of PEP modes, which involve related phenomena. These experiments were carried out at a toroidal field of 5.3T. ERS experiments were carried out during the current rise portion of the discharge, with ICRF power being applied as early as 50msec after initiation. While the onset of sawteeth was somewhat delayed and electron temperatures above 5keV were produced during the current rise phase, no clear signatures of ERS mode were observed. Li pellets were injected into the current rise plasmas, both to try to diagnose the current density profile and to induce early PEP mode effects. However, penetration of even the largest Li pellets was limited because of the high electron temperatures, and none reached the axis. Further experiments along these lines will try to use multiple, closely spaced pellets to improve penetration. PEP mode studies were also carried out in the later portion of the same discharges. Li pellets were injected into an ohmic target at 0.8sec, about 25msec before application of ICRF heating. Laser blow-off impurity injection was employed to determine medium z impurity particle confinement, which turned out to be essentially infinite in the PEP mode phase. Varying amounts of ICRF power were employed following the pellet injection, and the duration of the high central confinement PEP mode was found to be extended at lower injected power levels. Bob Pinsker from GA was visiting Alcator this week, and participated in the RF edge studies and the ERS/PEP mode experiments. Next week will be the last plasma operations week of the current Alcator C-MOD campaign.