Alcator C-MOD Weekly Highlights Jan 17,1995 Operation continued on Alcator C-MOD this week. Four runs were scheduled and completed. Principal experiments included studies of divertor detachment and ICRF antenna conditioning and heating. The TFTR-type Neutral Particle Analyzer (PCX) at F-port was calibrated using a series of reproducible discharges. The mass discrimination was explored using varying concentrations of H minority in D plasmas, with cross-calibration to the U. Md. Spectroscopic diagnostic. Calibration data were also obtained for the K-port tangential charge exchange (TCX) system. During this run several piggy-back experiments were also conducted, including Li pellet injection, conditioning of the E-port ICRF antenna, and a vertical scan of the ECE system. Experiments on the effect of increasing radiation on divertor detachment (MP#043) were carried out using Neon puffing into standard 800kA lower SN discharges. The plasma density was ramped from about 1 to 3e20/m3 with varying amounts of Neon injection. The power conducted through the LCFS varied from 800kW to less than 200kW. Detailed data were obtained for the upstream SOL using the fast scanning probe as well as at the target plate. Strikepoint control was used to keep the outer strike position at its nominal location. Conditioning of the E-port dipole ICRF antenna (MP#054) was completed, and heating studies (MP#059) using this antenna begun. Target plasmas were 800kA lower SN with a small outer gap, with typical density around 2e20/m3. Up to 1.75 MW was coupled through the antenna. Heating was found to be comparable to that observed previously using the D-port antenna; for 1.6MW the plasma stored energy increased by about 25kJ in L-mode. Several shots were run with Li pellet injection just prior to the turn-on of the RF. These showed good heating, up to 40kJ increase in the diamagnetic stored energy. Several ELM-free H-modes were also obtained in the high-density post-pellet RF-heated phase. A second piggy-back experiment on this run was an investigation of magnetic dipole (M1) lines of Ti-like Xenon and Tungsten (MP#072),which are of interest for ITER ion temperature diagnostics. Xe injection was successfully carried out, however the predicted forbidden line at 4139A was not observed. Divertor detachment was obtained on several shots; these results provide additional data for the detachment studies carried out earlier in the week. Radiation properties for Xe and W in the main plasma were measured. Analysis of confinement data is continuing. This week we contributed 190 time-slices to be included in the ITER L-mode database. Examination of our growing H-mode database indicates that the outer gap may be a significant parameter in determining the H-mode threshold, at least in the ohmic cases.