Alcator C-Mod Weekly Highlights April 24, 2000 Operations: ---------- Plasma operations resumed at Alcator C-Mod last week, following a maintenance interval. Three run days were completed. A total of 63 plasma shots were produced, with a startup reliability of over 98%. Most plasmas had a nominal current of 0.8MA, with toroidal fields of 5.1 to 5.4 Tesla. These runs were a continuation of the startup phase for the 2000 experimental campaign. In addition to cleanup and conditioning discharges, operational discharge development required for later physics runs was carried out, and commissioning of the ICRF system was begun. Plasma operations will continue this week. Physics ------- Wall condition was evaluated by running a sequence of special discharges in which density feedback was turned off and a short fixed-length gas puff was injected 1 second into the discharge. The plasma density before and after the puff, and the density decay time after the puff, are indicators of the extent to which the wall is "loaded". On Thursday and Friday we observed pre-puff densities below 3e19/m3, indicating considerably lower loading than in the previous operating weeks. An upper x-point equilibrium was developed in support of physics experiments to be carried out in the next months. These discharges also allowed us to do a better job of conditioning the upper divertor region. Ohmic H-mode was obtained using the technique of ramping the toroidal field down at fixed density and plasma current. A brief (~100msec) ELM-free H-mode phase was obtained at a qedge value of 2.7. This result is comparable to our experience in the 1999 campaign, and is another indication that the machine cleanliness and wall conditions are progressing satisfactorily. The lithium pellet injector has been reconnected to the torus, and loaded with a variety of pellets, including pure lithium, as well as Li pellets doped with potassium chloride, silver and tungsten. The beam-line has been baked, and the injector successfully test-fired. The system should now be ready for operation into plasma. ICRF Systems ------------ We began vacuum conditioning D, E, and J-port antennas this past week and managed to begin plasma conditioning of E and J-port antennas. D-port vacuum conditioning was interrupted by a FPA by-pass capacitor failure. The capacitor was last replaced in November 1996. The capacitor had water marks and appeared to fail in the vicinity of one these marks (another area was close to failure). The water is most likely from a pipe failure we had last year. We should be able to continue D-port antenna conditioning after replacement of this capacitor. E-port successfully coupled 1.4 MW to the plasma. The vacuum conditioning and initial plasma operation were not significantly affected by the presence of the boron nitride (BN) tiles (there was concern that conditioning would require significant more time). From the camera view of E-port, there were hot spots on the moly protection tiles at the midplane and upper right corner of the antenna for these low density, high H concentration plasmas. We will monitor these hot spots carefully and plan for the replacement of these moly tiles with BN in the next opening. During the run, we had a couple of discharges where the screen xbar apparently fired without a FPA HV xbar. Upon closer investigation, the screen xbar unit was found to have a shorted SCR (one of two) and the FPA water cooling line had a small leak. The water leak caused the screen by-pass capacitor to fail. This capacitor and the water cooling line are being replaced. The J-port antenna coupled 400 kW from FMIT#4 (running as a 2-strap antenna) on the last shot of Friday. FMIT#3 had a control problem (false HV fault) that prevented it from operating. Vacuum conditioning went extremely well compared to last campaign (28 kV with little effort). We will continue with making this antenna system operational this week. Finally, the modified resonant loops (changed from a low impedance to high impedance feed point) for D and E have performed well. In fact the voltage for a given power and loading appears to have decreased and the match is more stable. Diagnostic Neutral Beam System ------------------------------- Progress on the DNB continued. The DNB gate valve was opened using the conditioning pulse software. The PLC and Torvac wiring was debugged and the DNB conditioning software was checked. The fueling system was switched to deuterium for the initial tests into C-Mod. The plasma source was retested using deuterium with the new filament cabling.