Fall 2001: (September 29-30, 2001; Irvine, CA) This meeting focused on presentations and plans for two ad hoc projects sponsored by the committee?the burning plasma study and the partially ionized plasma proposals. Ongoing discussions with CHEDPP chair Ron Davidson were also included. Significant attention was given to FESAC and the Fusion Energy Snowmass meeting planned for Summer 2002. These discussions lead to continued development of the proposal for the burning plasma project. A science talk on plasma processing of materials from an industry perspective provided a backdrop for discussion of the partially ionized plasmas project. Spring 2002: (April 5-6, 2003; Washington, DC) This meeting included updates from the funding agencies (DOE, NSF, ONR, and NASA) and a discussion panel amongst them, a review of the burning plasma study proposal, and a discussion of the HED study?s progress. Future work items such as the plasma physics volume of the decadal physics survey and potential studies on computer modeling and simulation were also discussed. Fall 2002: (September 28-29, 2002; Irvine, CA) This meeting discussed the status of the then-recently started burning plasma study, heard the findings and recommendations of the HED study, and discussed the prospects for fusion in light of the …

The National Ignition Facility (NIF) requires diagnostics to analyze high-energy density physics experiments. A VISAR (Velocity Interferometry System for Any Reflector) diagnostic has been designed to measure shock velocities, shock breakout times, and shock emission of targets with sizes from 1 to 5 mm. An 8-inch-diameter fused silica triplet lens collects light at f/3 inside the 30-foot-diameter vacuum chamber. The optical relay sends the image out an equatorial port, through a 2-inch-thick vacuum window, and into two interferometers. A 60-kW VISAR probe laser operates at 659.5 nm with variable pulse width. Special coatings on the mirrors and cutoff filters are used to reject the NIF drive laser wavelengths and to pass a band of wavelengths for VISAR, passive shock breakout light, or thermal imaging light (bypassing the interferometers). The first triplet can be no closer than 500 mm from the target chamber center and is protected from debris by a blast window that is replaced after every event. The front end of the optical relay can be temporarily removed from the equatorial port, allowing other experimenters to use that port. A unique resolution pattern has been designed to validate the VISAR diagnostic before each use. All optical lenses are on …