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| First | Last | Presentation Title | Track | File |
|---|---|---|---|---|
| Jordan | Rader | Development of Multi-Purpose Dynamic Nuclear Thermal Rocket System Models | Track 2: Nuclear Fission Power and Propulsion |
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| Wesley | Deason | Pylon โ Scalable Power for the Emerging Space Economy | Track 2: Nuclear Fission Power and Propulsion |
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| Josh | Collins | Sunpower Robust Stirling Convertor Phase II and Phase III Overview | Track 1: Radioisotopes and Power Conversion Systems |
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| Glenn | Romanoski | Pyrolytic Graphite - An Enabling Material for Radioisotope Power Systems | Track 1: Radioisotopes and Power Conversion Systems |
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| Avery | Grieve | Neutronic Design and Characterisation of HALEU Fuelled Reactor for Nuclear Thermal Propulsion | Track 2: Nuclear Fission Power and Propulsion |
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| Jon | Neuhoff | DOE Isotope Program: R&D and Production of Isotopes for Space Applications | Track 3: Mission Concepts and Policy for Nuclear Space Systems |
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| Christopher | Barth | Optimization and Design of 1 kW Stirling Controller using Capacitor-based Power Factor Correction | Track 1: Radioisotopes and Power Conversion Systems |
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| Joshua | Rhodes | Mitigation of Tl-208 Gamma Dose from Pu-236 Decay Chain via Chemical Removal of U-232 and Th-228 | Track 1: Radioisotopes and Power Conversion Systems |
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| Gerald | Jackson | Antimatter-Based Propulsion for Exoplanet Exploration | Track 4: Advanced and Emerging Technologies for Nuclear Space Applications |
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| Emory | Colvin | Optimization of Pu-238 Production in the Advanced Test Reactor | Track 1: Radioisotopes and Power Conversion Systems |
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| Tyler | Steiner | Thermal Radiation Heat Transfer Solution Method Investigation | Track 2: Nuclear Fission Power and Propulsion |
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| Tyler | Steiner | In-Pile Steady State Extreme Temperature Experiment (INSET) | Track 2: Nuclear Fission Power and Propulsion |
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| Joseph | Sholtis | Safeguards And Proliferations Protections (SAPPs): A Way to Protect & Defend U.S. HEU-Fueled Space Power & Propulsion Reactors | Track 3: Mission Concepts and Policy for Nuclear Space Systems |
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| Corey | Smith | Core Loading Pattern Optimization using Nodal Diffusion and a Simulated Annealing Optimization Algorithm | Track 2: Nuclear Fission Power and Propulsion |
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| Young | Lee | mission concept considerations for Ocean world exploration using RPS inside a pressure vessel | Track 1: Radioisotopes and Power Conversion Systems |
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| Gyutae | Park | Increasing CERMET Fuel Thermal Margin with Thoria for Nuclear Thermal Propulsion | Track 2: Nuclear Fission Power and Propulsion |
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