Nuclear Considerations for the Application of Lanthanum Telluride in Future Radioisotope Power Systems
2019 IEEE AEROSPACE CONFERENCE(2019)
Key words
future radioisotope power systems,United States,radioactive emission,alpha particles,Seebeck effect,thermoelectric convertors,alpha-neutron,transmutation reactions,tellurium isotopes,transmutation products,halogen,RPS temperatures,thermoelectric cavity,RPS system,segment interfaces,cold- shoe materials,hot-shoe materials,segmented material combinations,metal-iodide compounds,generator design,segmented couple-level architecture,conversion capabilities,reaction channels,thermoelectric-based radioisotope power systems,lanthanum telluride materials,lanthanum telluride thermoelectric devices,lanthanum telluride thermoelectric technologies,bonding layers,metallization layers,transmutation-induced thermoelectric performance degradation,lanthanum telluride thermoelectric materials,La3Te4
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