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Low temperature plasma gives us a way to improve propulsion efficiencies beyond current state-of-the-art chemical propulsion systems. More governments, businesses and universities are launching spacecraft into orbit around Earth. NASA is even focused on the Moon and eventually Mars to deploy spacecraft. The chemical systems we have used to date have limited the size these satellites can be. Using a more efficient propulsion system will increase the life of the spacecraft and enable missions we are currently not able to accomplish. Space propulsion is a fast growing field especially for small satellite constellations. The small size and low cost of small satellites means they can be produced and launched in greater numbers, which has greatly increased the need for high efficiency propulsion systems. The Starlink satellite constellation by SpaceX use a small krypton Hall effect thruster for orbit raising and station keeping. Currently, SpaceX has over a thousand Starlink satellites in orbit. Several propulsion research projects are underway within the CPU2AL group. At UA, work is being accomplished in developing better plasma diagnostics. A significant limiting factor in plasma research is measuring the plasma properties. Our focus is on non-intrusive probes relying on spectral absorption, emission and induced fluorescence. These diagnostics are being used to make these types of measurements in hard to reach places inside a plasma thruster.