Alcator C-Mod Weekly Highlights January 31, 2000 We continued to make good progress on invessel, RF, and DNB work last week. Invessel work has begun to concentrate more or installation and alignment instead of fabrication. Engineering: Invessel work last week at K-port included installation and alignment of the bolo box, and changes to improve the view of the Z-meter array. New diborane lines were also installed. Additional studs have been added to better support these lines where they bend out radially. The hole pattern in the lines has also been changed to improve the distribution of diborane around the machine during boronization. A new H-port mirror has been installed to allow the McPherson VUV spectrometer view to be scanned across the divertor. Installation of new flux probes on both limiters is proceeding. All tiles (fewer than 5) that showed melting during the last run campaign have been replaced. All antenna work is complete including installation of the new boron nitride tiles. The new shutter for the MSE diagnostic has been installed and made operational. During calibration of the MSE/BES system, it was discovered that two of the mirrors in the in-vessel optics enclosure had come loose, and the optical system had become misaligned. These components have gone back to PPPL where the mount will be redesigned. The new CXRS poloidal view telescope has been installed. Fabrications still in progress needed for invessel work include rangefinder retro-reflector holders, and a new mirror at A-port. This mirror will provide a new view of the J-port antenna. These fabrications should not delay pumpdown. Finally, we have begun to throughly clean the vessel to remove old boron deposits. The input cavity and tube assembly for the FMIT#1 transmitter is complete and installed. Work on the output cavity is nearly complete. We have also begun work on modifications to the PPPL demodulators to improve their response time. The DNB was moved from its test area to the C-Mod cell last week. All major in-cell components are in place and interconnection is in progress. Air, water, and vent lines are also being installed. Work continues on upgrades to the cryo system. We have sealed the LN2 sump after making improvements to the gas, liquid, and transducer feedthroughs. Wiring for the cryo control system has also been improved. Work to improve the operation of the cryostat exhaust valve has been planned and will begin shortly. Physics: Recent analysis of data from the omegatron ion mass spectrometer shows that the magnitudes of the resonant ion current increases with applied RF power up to a saturation value. A simple model of the collection of resonant current reproduces the observations. The model assumes a shifted half-Maxwellian distribution for each ion species, allows for reflection of ions due to space charge in the resonant cavity, and establishes a collection criterion based on resonant ion dwell time in the cavity. Within the assumptions of the model it is possible to extract from the experimental data the temperatures of individual ion impurity species. It is found that the impurity temperatures are all near the bulk ion temperature, approximately 3 eV, recorded with the retarding field energy analyzer on the omegatron probe. From the asymptotic value of the resonant current it is possible to estimate the absolute flux of individual impurities. Fluxes of charged states of boron dominate the impurities with levels near two percent the deuterium flux. With further assumptions about the relationship between the impurity velocity and impurity density at the sheath edge it is possible to obtain estimates of the impurity density in the edge plasma. Travel and Visits: David Winslow and Keith Carter (UT-FRC) spent 1/18 to 1/26 at C-Mod installing the Texas turbulence probe on the DNB stand at F-port. The vacuum system, electronics, and probe alignment work will begin during the week of 2/14. It is expected to be ready for operation during the next campaign. Ron Bravenec (UT-FRC) was at C-Mod from 1/25 to 1/28 to assist Norton Bretz (PPPL), Dan Simon (PPPL), and Howard Yuh (MIT) install the relay optics, PEMs, and image dissector for the MSE/BES optical system. Gerd Schilling (PPPL) spent most of last week at PPPL for discussions on the C-Mod collaboration aspects of the PPPL Field Work Proposal.