Georgia Tech’s MS-Nuclear Engineering equips students to design SMRs, model fusion blankets, and craft medical-isotope production lines. Hands-on labs use the campus TRIGA reactor for neutron activation, while internships at Oak Ridge and Commonwealth Fusion Systems translate simulations into hot-cell prototypes.
Monte-Carlo neutron transport model for molten-salt reactor cores
Cyber-physical security framework for digital reactor I&C
Plasma-facing material erosion study in compact tokamaks
Boron-nanoparticle neutron-capture therapy delivery system
Thermoacoustic pump concept eliminating moving parts in coolant loops
Life-cycle CO₂ comparison of SMRs vs. combined-cycle gas plants
Fast-spectrum micro-reactor for lunar surface power feasibility
3-D printed neutron collimators for BNCT applications
AI-assisted gamma spectroscopy for rapid isotope identification
Dose-tracking wearable for interventional radiologists
Sodium-cooled reactor thermal-hydraulic CFD benchmarking
High-fidelity simulation of tritium permeation in fusion blankets
VR public outreach module debunking nuclear-waste myths
Hybrid fusion-fission battery concept for long-duration space travel
Small-modular reactor siting policy analysis for remote communities
Power a low-carbon future through advanced nuclear science.
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