UC’s PhD in Nuclear Engineering equips scholars to innovate in reactor physics, fuel cycles, fusion systems, and radiation applications while ensuring safety and non-proliferation.
Monte-Carlo optimization of micro-modular molten-salt reactor cores
TRISO fuel irradiation test assessing fission-product retention at 1 300 °C
Liquid-metal loop experiment validating sodium fast-reactor corrosion models
Tritium-breeding blanket neutronics for spherical-tokamak pilot plants
AI anomaly detection in pressurized-water-reactor coolant chemistry streams
Additively manufactured SiC-SiC channel testing under neutron flux
Laser-induced breakdown spectroscopy monitoring uranium enrichment cascades
Economic assessment of microreactors powering arctic mining sites
Passive-safety analysis of lead-bismuth fast reactors during station blackout
Fiber-optic Cherenkov detector array mapping dry-cask dose gradients
Fusion–fission hybrid concept evaluating transuranic burn-down potential
Thermo-acoustic Stirling converter modeling for radioisotope power units
VR training module for remote hot-cell maintenance operations
Neutron-shield composite development for space nuclear propulsion
White paper on equitable access to Mo-99 medical isotopes
Policy roadmap harmonizing SMR licensing across IAEA member states
Benchmarking open-source reactor codes with ICSBEP experiments
Digital twin predicting BWR boiling-crisis onset in real time
Public outreach kit demonstrating alpha, beta, gamma shielding principles
Conference on advanced nuclear governance for deep-decarbonization
Drive next-gen nuclear solutions with UC’s safety-focused PhD.
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