Baylor's Hypervelocity Impacts & Dusty Plasmas Lab (HIDPL) and Space Science Lab (SSL) conduct research in a number of areas and offer basic research as well as engineering and design opportunities for graduate, undergraduate and technical support students. Current research topics include laboratory simulations of complex plasmas, meso- and nanoscale physics, grain charging in dense and tenuous dusty plasmas, grain coagulation, ordered grain lattice formation within dusty plasmas, as well as wave propagation through ordered and disordered dusty plasmas. Additional research is being conducted in the areas of hypervelocity impact studies, in-situ and remote sensing sensor design and instrumentation, calibration and diagnostics as well as prototype design of dust particle accelerators and other equipment for dust and debris research. Satellite operations and technology and also mission analysis and design are fields of work.The HIDPL and the SSL are located in the BRIC. Researchers within the HIDPL or the SSL have access to two GEC RF reference cell plasma experimentation systems, an inductively driven 15kW plasma generator (IPG) a low-velocity light gas accelerator system, an electrostatic accelerator fitted for dust particle acceleration, two frequency doubled Nd:YVO4 lasers (Coherent-Verdi), a Ti-Sapphire laser system and a single- and two-stage light gas accelerator system. Research staff provide full on-site technical support in the areas of CAD/CAM, electrical discharge machining, lab safety, lasers, manufacturing, non-destructive testing/preventive maintenance, numerical control integration, plasma drag accelerators, system instrumentation, vacuum systems and welding. On-site fabrication and production capabilities are available (through CASPER) for use by contracting agencies.