Alcator C-Mod Weekly Highlights May 18, 1998 We have begun removal of feltmetal from the upper TF arms as the first step in preping them for new feltmetal installation. We have also completed cleanup of the core insulation and begun sealing it to protect it during the electroforming and plating activities. Two new inductive heating coils have been fabricated and sent out to Pillar, the company supplying our new heating unit. They will test the coils with a new transformer designed to improve matching between the heating unit and the coil. Fabrication of the fixture needed to hold the feltmetal during soldering is nearing completion. This fixture will also be tested at Pillar before the end of the month. High current density tests of feltmetal samples with 2 mm of sliding travel will begin in the next few days. Full scale tests of a sliding joint at full current are expected to begin by the end of month. Further analysis has been performed on the total radiated power emissivity at the edge of the plasma. A photodiode array with 2 mm radial resolution was used for these measurements. The emissivity scale-length was found to decrease from 2-3 cm to 3-4 mm after a transition from L to H-mode. Experiments where plasma current was modified during the H-mode, showed a correlation between the scale-length and the plasma current. When the current was increased the scale-length decreased, and vice-versa. However, the biggest change was observed to be outside the separatrix. In addition, a toroidal field scan was also performed, but no change in scale-length was observed. Results from ECDC experiments performed last fall are to be presented at the upcoming Plasma Surface Interactions conference in San Diego. Measurements were performed to determine ECR plasma conditions. Toroidal asymmetries in ion saturation current density were observed, indicating local toroidal plasma flow. The ECR plasma was used to remove a diamond-like carbon coating from a stainless-steel sample. Removal rates peaked at 4.2 +/- 0.4 nm/hour with the sample a few centimeters outside the resonance location. The plasma did not remove the carbon from the sample uniformly, possibly due to plasma flow. Yields were calculated (Y ~ 1e-3) to be lower than other published results for chemical sputtering of deuterium ions on carbon, possibly due to toroidally asymmetric plasma conditions. Development of the DNB for C-Mod continues. The Kirk key safety interlock mechanism for the Mod/Reg has been finished. Circuit board layout was completed for the logic boards required in the arc/filament/snubber interface to the Master Control Logic (MCL). HV cabling was completed between the snubber in the beamline area and the accelerator and grid voltage dividers. Insulating supports for the cable run to the beamline were fabricated. Calibration and testing of the communication links to the high voltage divider system at the beamline continues. A new current limiting resistor mount for the suppressor was fabricated and installed. The embrittled filaments in the beamline plasma source were replaced with newly fabricated filaments. Work continued on the MCL and PLC interface circuits, PLC programming, and VAX software development. We are currently disassembling FMIT#4. Last week we found an arc track on the tube contact ring. We surmised that an arc was occurring between the control grid and the contact ring. Shorting the grid would cause the tube to produce its maximum current which would result in a crowbar. After removing the arc track and inspecting the gap, we assembled the transmitter and tested it. It still crowbarred when the power was in the range of 250 - 500 kW. We intend to perform some other tests and insert another tube in FMIT#4 to test whether the current tube is causing the problem. The PPPL antenna work is progressing. We currently expect the antenna to be delivered in the beginning of July. The pacing item is to complete the antenna electrical testing. A thorough testing of the antenna on the test stand is needed to prove that the antenna will work in an engineering sense when installed in the machine. Depending upon the TZM Faraday rod testing, the Faraday screen may be delayed. Martin Greenwald travelled to Berkeley, California where he attended a DOE sponsored review of the Energy Sciences Network. At the review he made a presentation entitled "Users Perspective: Fusion Energy Sciences". Following the review, he attended a meeting of the ESnet Steering Committee. Bob Granetz attended the ITER Disruptions and MHD Expert Group meeting in San Diego last week.