Alcator C-Mod Weekly Highlights August 9, 1999 Operations ---------- Alcator C-Mod operated for four days last week with the primary goal of bringing all RF transmitters online. All transmitters have now delivered approximately 1 MW of power to the plasma, limited primarily by power supply transformer tap settings that will be raised once initial testing is complete. With this increase in supply voltage, FMIT#1 and #2 will be ready for physics operation. A problem with the RF feedback control system on FMIT#3 and #4 only allowed low power simultaneous operation of these two transmitters. This problem is now being resolved. Last week's runs were also used to clean up the machine after the up-to-helium of the previous week. A low temperature bake at 55C during ECDC was carried out over the weekend and into Tuesday morning. By Tuesday the vacuum conditions were much improved over the previous Friday, and the machine ran extremely well, though the H/D ratios were still too high for efficient RF heating. Vacuum conditions and the H/D ratios improved as the week progressed, until on Thursday they were sufficiently good for boronization to take place. The run on Friday, following the boronization, produced good H-modes at relatively low RF power thresholds. After several shots were taken to judge the quality of the boronization, the Friday run was stopped early so that work could proceed on the FMIT#3 and #4 feedback circuitry. Physics ------- The inability two weeks ago to get a standard tokamak discharge lasting longer than about 0.4 s, and the spectroscopic evidence of much increased iron concentrations in these short plasmas were the reasons for our TV search for any broken in-vessel hardware. As reported previously, a broken SS gas feed line was found to be sticking into the plasma volume. This tube was removed in the one day up-to-helium vent on 7/28. The iron concentrations had been increased by about one order of magnitude compared to normal levels. After the tube removal, these elevated levels fell to about twice normal, indicating that, while most of the SS source was gone, some SS still remained on the walls. The oxygen concentration was also elevated in those discharges with high iron levels. Spectroscopic measurements also documented the cleanup of the discharges occurring after the up-to-helium vent. In those clean-up discharges, the carbon and oxygen concentrations were significantly greater than normal. The increased oxygen was no doubt due to water vapor on the vessel walls. The source of the increased carbon is unknown, but as mentioned above, after a mild bake and ECDC the machine cleaned up rapidly, and both of these impurities decreased. Detailed Omegatron spectra were obtained on Thursday during ohmic fiducial tokamak discharges immediately prior to boronization, with the deuterium (M/Z=2) resonance dominant. Almost all other resonances could be attributed to charge states of carbon-12, boron-10 and boron-11, as well as hydrogen-1. A resonance at M/Z=8 was observed on multiple discharges, which may have been due to doubly-charged oxygen-16. Ion mass spectra were obtained again immediately after boronization on Friday in fiducial ohmic tokamak discharges. Surprisingly the relative levels of boron and carbon changed little compared to pre-boronization, but the M/Z=8 resonance reduced to the background signal. In a series of separate discharges it was found that the Omegatron probe can be operated as a residual gas analyzer (RGA) on a tokamak. Grid component biases were set in electron saturation mode, edge plasma electrons were used to ionize the neutral gas inside the omegatron, and the ion mass spectrometer discriminated on the basis of M/Z. Neutral pressure of order 0.2 mTorr was calculated inside the omegatron cavity, which was consistent with midplane neutral pressures at the same time for the same shot. A rich spectrum of resonances was obtained with M/Z=4 dominant, probably corresponding to singly ionized molecular D_2; decreased by a factor of four or more but still easily recognizable were resonances of M/Z=2,3,12,5,6 and others (in decreasing intensities). Before using this preliminary Omegatron RGA data to draw conclusions about the composition of the neutral gas outside the Omegatron, it must be noted that the probe was designed to analyze edge plasma ions and does not permit easy communication of neutral gas with the surroundings. Travel and Visitors ------------------- Romik Chatterjee, UTexas, ended a three week visit during which he continued work on the hardware for using the high resolution ECE radiometer to observe Te fluctuations. The radiometer is now regularly taking profile data. Perry Phillips, UTexas, will visit for the next three weeks and continue this effort. David Winslow, also UTexas, ended a two week visit during which he analyzed divertor probe fluctuation data and prepared for a driven divertor probe experiment.