Alcator C-MOD Weekly Highlights March 25, 1997 Reassembly of Alcator C-Mod continues. All horizontal port extensions have been installed and helium leak checked through their secondary seals. As mentioned last week, the port extensions had to be in place before some invessel installations could proceed. Installations such as the divertor prototype cryopump and the JHU divertor spectrometer are now progressing rapidly. The rf antennas and feedthroughs have also been installed. Work on the curved bus and coaxes is nearly complete, as is installation of all the LN2 cooling lines. The magnet cooling PLC has been brought back into operation so that all the LN2 valves could be checked for proper operation, and cooling paths verified. All heaters, thermocouples, OH flux loops, and OH position sensors have been checked for proper operation now that the tokamak is complete. The final hi-pot and ringing tests required before the machine is sealed inside the cryostat are underway. The lower cryostat is ready to be raised into position, after which the vacuum hardware on the lower vertical ports can be installed. The torus pumping station has been moved back into the cell and installed on the port extension. The DNB fabrication continued with design work on the ACCEL supply control system, and successful no-load tests on both the ACCEL and the Arc/Filament/Snubber supplies. We can now refill these supplies with oil and begin filtering and degassing it in preparation for bringing them back online. Work continues preparing the magnet power supplies for operation. OH2 upper and lower converter cabinets have been checked and made ready for operation as have the IOC/current feedback boards. The EF1 upper and lower converter cabinets and IOC/current feedback boards were also checked and are ready for operation. In addition, crowbar firing levels have been adjusted to specification. The crowbar trigger circuits for the new transmitters have been tested and are being calibrated. Preparations continue on the crowbar cabinets with installation of the new trigger circuits expected soon. Work continues on water cooling, control, and transmission systems. Safety interlocks and bias and filament power supplies have been tested on transmitter #4. The coax components fabricated at PPPL have arrived. During the past month, the collaborators from UT-FRC have been concentrating on preparations for the spring campaign. Design of the turbulence probe diagnostic was completed, and the vacuum hardware required for C-Mod pumpdown was received at MIT along with all required CAMAC equipment. The ECE radiometer which will be used by the Auburn/MIT/UT collaboration for electron temperature profiles and fluctuations is now at MIT, also with all its required CAMAC equipment. Testing of components for two DNB diagnostics, BES and CXRS, is planned. The equipment for both of these is in the final stages of preparation at UT. Work continues on several diagnostic systems. Thermoelectric coolers for stabilizing the reflectometer Gunn diode frequencies arrived at PPPL and layout drawings have been generated for installing them at MIT. We have begun to discuss with PPPL software and hardware changes that should much improve the operation of the reflectometer system. Newly recoated optics have been installed on the two-color-interferometer diagnostic, and improvements made to the collimator mounts. This system is being brought back on line now so that alignment can begin as soon as we have access to the torus. A new 95 microgram Cf252 source has arrived from Oak Ridge. It will replace the old source which had decayed to the 18 microgram level. The new source will allow us to achieve a good signal-to-noise level during our neutron calibration in much less time. In order to measure the D0 Lyman alpha line, molecular deuterium lines, and the strong carbon and nitrogen lines above 1200 Angstroms, the long wavelength end of the spectral range of our VUV spectrograph is being extended from 1100 to 2200 Angstroms. In addition, an in situ calibration facility for the spectrograph has been developed and is being installed and tested. We continue to analyze spectroscopic rotation data. The argon toroidal rotation radial velocity profile has been used to determine the radial electric field during better H-mode and enhanced D-alpha H-mode discharges. At r/a = .3, the field is 300 V/cm, about a factor of 2 larger than the ion diamagnetic term. Mark May and Sean Regan are here this week from JHU to complete installation of their divertor spectrometer. Bob Granetz was in Moscow last week for the ITER MHD Expert Group meeting. Earl Marmar was in San Diego for a meeting of the FESAC ITER review committee, which was held at UCSD.