1. Use of Water Vapor as a Propellant for a 17.8-GHz Microwave Electrothermal Thruster Open Access Author: Nigay, Natalia Title: Use of Water Vapor as a Propellant for a 17.8-GHz Microwave Electrothermal Thruster Area of Honors: Aerospace Engineering Keywords: Electric PropulsionMicrowave Electrothermal ThrusterMETWater VaporPlasma File: Download Nigay_Natalia_METthesis.pdf Thesis Supervisors: Michael Matthew Micci, Thesis SupervisorDavid Bradley Spencer, Thesis Honors Advisor
2. Low-Power Water-Vapor Generation using Ultrasonic Atomizer for Use with Microwave Electrothermal Thrusters Open Access Author: Detwiler, Jonathan Title: Low-Power Water-Vapor Generation using Ultrasonic Atomizer for Use with Microwave Electrothermal Thrusters Area of Honors: Aerospace Engineering Keywords: METElectric PropulsionAtomizerUltrasonicMicrowaveWater VaporAerospacePropulsion File: Download Jonathan_Detwiler_Thesis_Final.pdf Thesis Supervisors: Sven G Bilen, Thesis SupervisorRobert G. Melton, Thesis Honors Advisor
3. Investigation of a Microwave Surface-Wave Plasma for Propulsion Open Access Author: Ramdass, Kriston Title: Investigation of a Microwave Surface-Wave Plasma for Propulsion Area of Honors: Aerospace Engineering Keywords: surface waveplasmaMETthrusterpropulsion File: Download Kriston_Ramdass_Honors_Thesis.pdf Thesis Supervisors: Sven G Bilén, Thesis SupervisorRobert G. Melton, Thesis Honors AdvisorJesse Kane Mc Ternan, Faculty ReaderAmy Ruth Pritchett, Faculty Reader
4. Microwave Electrothermal Thruster Optimization via Simulations Open Access Author: Van Hulten, Alexander Title: Microwave Electrothermal Thruster Optimization via Simulations Area of Honors: Aerospace Engineering Keywords: Microwave Electrothermal ThrusterMETSpace PropulsionPlasmaElectric PropulsionCOMSOL Multiphysics File: Download Alex_Van_Hulten_Honors_Thesis.pdf Thesis Supervisors: Sven G Bilén, Thesis SupervisorXin Ning, Thesis Honors Advisor
5. The Applicability of Additive Manufacturing in Mass Production and Space Operations Open Access Author: Stone, Robert Title: The Applicability of Additive Manufacturing in Mass Production and Space Operations Area of Honors: Electrical Engineering Keywords: Additive ManufacturingBinder JettingMicrowave Electrothermal ThrustersMETMass ProductionSpace Operations File: Download Stone_Robert_THE_APPLICABILITY_OF_ADDITIVE_MANUFACTURING_IN_MASS_PRODUCTION_AND_SPACE_OPERATIONS.pdf Thesis Supervisors: Sven G Bilén, Thesis SupervisorJulio Urbina, Thesis Honors Advisor