UC Nuclear Engineering blends reactor physics, materials science, and radiation detection. Students model neutron transport, test advanced fuels, and collaborate with national labs on fusion diagnostics.
Monte-Carlo neutronics model of molten-salt fast reactor cores
Piezoelectric sensor array for real-time fuel-rod vibration monitoring
Policy brief on small modular reactor licensing pathways
Machine-learning anomaly detection in coolant pump vibration data
3-D printed uranium-surrogate pellets for thermal-conductivity testing
VR simulator training operators for micro-reactor deployment in Arctic bases
Radiation hydrodynamics code benchmarking inertial-fusion hohlraums
Life-cycle assessment comparing thorium and UO₂ fuel cycles
Augmented-reality decommissioning guide overlaying residual-dose fields
Passive heat-pipe design for space nuclear power modules
Critical essay on proliferation risk of molten-salt breeder reactors
Gamma-ray spectroscopy of medical isotope production targets
Crowdsourced dosimetry badges for citizen radon monitoring
Finite-element stress analysis of SiC-SiC accident-tolerant cladding
Network analysis of global nuclear-supply-chain dependencies
Interactive dashboard tracking fusion startup funding trends
Fast-neutron imaging system for cargo-container security
Hydride embrittlement study of zirconium alloys under high burn-up
Economic model of micro-reactor deployment for remote mining operations
Workshop teaching K-12 students cloud-chamber radiation visualization
Power the future safely and sustainably with UC Nuclear Engineering.
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