Alcator C-MOD Weekly Highlights July 30, 1996 We continue to prepare for plasma operation. Electron cyclotron discharge cleaning has now begun and will continue through early next week. ECDC is used to remove impurities (O2, H2O, C, etc) from the vessel wall while "loading" it with deuterium. The magnets have now been cooled down to operational temperature (typically -165 C), and power tests have begun. The alternator was successfully commissioned last week and was used for the first time this week during the power tests. These tests will continue for the next couple of days as each supply is carefully checked for proper operation first under PLC control, and then under HYBRID command. The alternator response to higher and higher loads will also be carefully monitored. Installation of the divertor cryopump diagnostics and control system continues. Connections from the cryopump to the PLC are complete and cabling needed to control the LN2 and LHe transfer lines is being installed. Initial cooldown tests of the cryopump should be underway by early next week. We continue to prepare diagnostics for plasma operation. The ECE beamline has been re-installed and a calibration is planned for later this week. Alignment of the two-color-interferometer is progressing. Several fiber runs were finished last week and will be used for control and data acquisition of new diagnostics. Work on the new divertor RGA has begun. Various components such as the vacuum system, magnetic shielding, and support hardware for the RGA are either nearly designed or under construction. University of Texas FRC personnel continued disassembly and packing of the diagnostic neutral beam. Approximately half of the support units (power supplies and power conditioning units) were removed from the FRC labs by the shipper. A shipping date to MIT is being determined. In response to a query from the ITER JCT (Perkins, Wesley, Ortolani), we have begun a systematic study of the dependence of disruptivity (i.e. # of disruptions per second of plasma operation) on several plasma parameters. ITER is particularly interested in the dependence on q95 and kappa. C-Mod's disruption database, with relatively quick access to the basic plasma parameters of thousands of discharges, provides good statistics, even with the very fine parameter resolution (delta q95=0.1) requested by ITER. For the q95 study, we find that in the normal flattop range (4 <= q95 <= 6), the disruption frequency reaches its lowest value of about 0.35 disruptions per second of plasma operation. However, as q95 decreases below 3.2, the disruption frequency rises dramatically, but monotonically. A paper by collaborators and C-Mod personnel was recently accepted for publication in Phys Rev A: 'Dielectronic Recombination and Excitation Autoionization Rate Coefficients for Potassiumlike Mo23+ to Fluorinelike Mo33+', K.B.Fournier, W.H.Goldstein, A.L.Osterheld, M.Cohen, M.Finkenthal, M.J.May, J.L.Terry, M.A.Graf and J.E.Rice