Alcator C-Mod Weekly Highlights March 16, 1998 The Alcator C-Mod maintenance period continued last week as we concentrated on disassembling the machine. More igloo blocks, cabling, diagnostics, and ports were removed as we prepared to lift the cylinder. The top dome cover was removed on thursday giving us access to the top TF arms and core. Small amounts of copper and carbon tracking radiating out from the A-right TF leg were found. However, most of the debris is probably contained within the cylinder. We hope to have the cylinder off early this week, at which point we will also be able to remove TF arms and legs for detailed inspections. We have also found a small crack on one of the TF core fingers which we cannot properly inspect until the spring-plates and upper arm are removed. First invessel access occurred last Tuesday after a several day long room-air purge to eliminate the effects of residual boron compounds. Detailed radiation and video surveys were done before general access was allowed. Following the surveys, calibrations of several of the invessel diagnostics were performed. An extensive set of digital pictures detailing hardware on the outer wall was also taken. These pictures will appear on our WEB site soon. The development of the diagnostic neutral beam continued with progress on the Mod/reg system, PLC control, data acquisition, and diagnostics. The crowbar trigger and control system isolation transformer/power distribution for the Mod/Red is now complete. Design began for the grid drive circuits for the power tetrode, and HV cables were installed to the test cell. PLC programming for control of the DNB waveform generators was completed. These waveform generators provide timing for power supplies and process gas feed during the interval in which the beam is generated. The two camac crates, one for timing and acquisition of engineering data, the other for beam diagnostics, were connected to their buses and successfully tested. The camac data acquisition modules for the DNB profile diagnostics were installed in their final locations and provided with triggers and clocks that are distributed from the master DNB decoder. DNB diagnosticians completed their optical designs for MSE and CXRS. The optics were developed using commercial optical design packages. The diagnosticians are now involved in arbitrating the use of space on the flange and in recommending modification of structures near the machine to provide adequate access for the diagnostics. Work in the power systems group last week included continued development of new over-voltage protection boards. Checks on the calibration of the bus instrumentation continued. Power systems group personnel also began to work on DNB related projects last week. This change will certainly move this major project along more quickly. The RF group has continued working on exploring the upper frequency limit of FMIT#3, antenna disassembly, porting ACCOME to the VAX, and advanced tokamak scenario modelling. The maximum frequency obtained to date is 76.9 MHz. Approximately half of the ACCOME modules have been modified to compile properly on a VAX Alpha machine. Advanced tokamak scenario developmental work has been done for a single null, high beta, high q equilibrium. Last week Boyd Blackwell from Australian National University visited Tom Fredian and Josh Stillerman to discuss plans for upgrading their MDS data acquisition system to MDSplus. Romik Chatterjee from the University of Texas visited on Friday to work on some hardware for the O-mode radiometer. Dave Johnson from PPPL visited last week to direct calibrations of the X-point Thomson scattering system. Ben Welch visited from the University of Maryland to direct calibrations of various visible light spectroscopic systems.