Alcator C-MOD Weekly Highlights April 9, 1996 In-vessel work continues. A careful vacuuming of the vessel was done to collect dust as small as 2u in diameter. This is part of an ITER support activity in which the size distribution and makeup of dust produced during operation is quantified. Several outer divertor cover plates have been removed and sent out for analysis along with wipes of the inner and outer wall. This analysis should measure the amount of boron hydrides still remaining relative to the breakdown products (mainly boric acid). A final cleanup of the vessel will now be done with distilled water wipes of the vessel walls. We would like to acknowledge all the help we received over the past month in dealing with the boron hydride deposits, particularly from Frederick Hawthorne (UCLA), Gary Jackson (GA), Joerg Winter and Guenther Esser (Juelich), and Richard Pitts (Lausanne). In preparation for installation of the prototype divertor cryopump on the vacuum test stand, instrumentation is being debugged and interfaced to the data acquisition system, and the pump is being degreased and cleaned. The vacuum test stand will be used for leak, cooldown, cycle, and pumping speed tests of the cryopump. All vacuum hardware needed to install and instrument the pump is now in house and ready for installation. The motor starters for the #3 and #4 RF transmitter water cooling units are being installed. Design of the control cables out to the Hi-Yard is complete, and installation is about to begin. PLC control cables are being fabricated. Work continues on the crowbar cabinets with the fabrication of ignitron support hardware. The alternator inspection is now complete and we are awaiting a complete report from GE. Work has already begun on design changes to the lower flywheel bearing support. The bus tunnel is now being opened up so that the LN2 manifold can be modified and the new valves needed to improve TF cooling installed. This change will reduce between shot cooldown time considerably. Work on the diagnostic stand extension continues. Most major support hardware is now in place on the west wall, and the decking is being prepared for installation. Air and water service at some locations has been relocated to accommodate the extension. As part of the analysis of results from the last campaign, we have been studying the local conditions near the plasma edge at the L-H transition. A dedicated run in January, in which power and density were systematically scanned, showed that the transition always occurred at about the same edge Te, as measured by ECE. Data from several other diagnostics are being examined to try to understand the physics behind the observed low density limit for H-mode on Alcator C-Mod. Some results from this analysis were presented at the most recent TTF meeting, and an abstract has been submitted for the IAEA meeting. Up until June of 1995 the compression of gas into the divertor (P_div/P_midplane) in Alcator C-Mod was typically in the range 50-70 with values as high as 150. It is desired to maximize this ratio in order to minimize the midplane pressure (possibly better for core confinement) and also maximize the divertor pressure for pumping purposes. The thesis work of Artur Niemczewski modelling neutral transport in the divertor region in the presence of a plasma showed that there were gaps around the edges of the outer divertor which, if plugged, could result in higher compression ratios. This gap was plugged before the winter run period with the result that compression ratios are now typically in the range 100-200 with values often over 300. This increase is mainly due to an increase in the divertor pressure for a given line-averaged density with a small decrease in the midplane pressure. We are investigating the effect of this change on other divertor and core parameters as well. At the moment there does not appear to be any change in core confinement. Screening of recycling gases (Ar, Ne) from the core appears to be better. This may also be true for non-recycling gases. Mike Mauel (Columbia) visited last week and gave a seminar on a reactor concept using a levitated dipole to produce the confinement field.