Alcator C-Mod Weekly Highlights August 7, 2000 After a several day long GN2 purge of the cryostat and magnets to remove air and water vapor, a cooldown of the C-Mod retaining cylinder and domes was started on Tuesday of last week. Cooldown of the magnets to approximately -25 C was completed on Wednesday, and the vacuum bake of the vessel was then brought up to 120 C. Work also continued last week on RF and Power systems, and the divertor upgrade. Engineering ----------- The two klystrons that had exhibited high voltage breakdowns have now been successfully tested with new insulators installed. Testing of the klystrons just returned from PPPL has already begun. We now have ten klystrons qualified for service. Twelve will be needed for the first lower hybrid experiments. The gas fill and pressure indicator system for the ICRF transmission lines is being modified to accept 1/4'' npt fittings. The D-port phase shifter has been repaired and installed. The 9'' coax reassembly is progressing for D, E, and J-port. We have recalibrated the voltage probes and directional couplers (EDC2, EDC3 and EDC4, and DDC3 and DDC4). A water leak in the FMIT#4 anode cooling lines was apparently caused by low resistivity water has been diagnosed and repaired. The water system was recently modified to be closed loop to increase the water flow while reducing the head pressure from the main C-Mod loop. A clogged filter in this new system eventually resulted in an erroneous resistivity measurement and in a large current flow through the cooling lines when the transmitter was in operation. Small pumps are being added to all the cooling systems to continuously replace the cooling water with high resistivity main loop water every 20 hours. We continue to add new diagnostic signals to the power systems in preparation for long pulse operation. Cabling and conduit are being run, and the CAMAC equipment required to record the new data installed. Simulations of the solid state power system components are complete and indicate all components will operate in a safe range during 10 second long pulses. Simulations of the main fuses in the system are now underway. Aluminum prototypes of the new divertor upgrade tiles have been made to verify the design and drawings. We are now ready to go out for final bids for the approximately 1000 tiles needed. We are also in the process of producing a test piece for the tile support structure (girdle). Heat conductivity tests used to model the heat transfer from the girdle to the vessel wall indicated a 30% improvement in conductivity when silver plating was added to the girdle components. We have also successfully tested a mockup of the tile keeper components. Completion of these inner wall/divertor modifications is scheduled for the winter maintenance period, and these changes will allow for full plasma current operation (> 2 ma) in the 2001 campaign. Work continued last week on the upgrade to the glow discharge and diborane systems. The Diborane/Glow discharge rack equipment wiring cleanup was completed. A new glow discharge HV chassis was installed in the rack and bench testing has been started. High power resistor rack wiring was completed. Interconnect cables from the new glow discharge rack to the Diborane/Glow discharge PLC rack were completed. Multipin connector panels for the Diborane/Glow discharge PLC rack were wired. The glow discharge switch control chassis is built and wiring is underway. All design work is complete. Spare glow paddles are being installed in our vacuum test stand so that the new system can be checked offline before installation on C-Mod. Travel and Visits ----------------- Gary Taylor spent the week at C-Mod working on the GPC2 electron cyclotron emission diagnostic.