Georgia Tech’s Nuclear and Radiological Engineering BS trains students to harness the atom safely and sustainably. Hands-on labs use TRIGA research reactors for neutron activation analysis, while the Medical Physics track partners with Emory hospitals on proton-therapy dosimetry. Coursework in reactor physics, thermal-hydraulics, and radiation detection pairs with policy seminars on non-proliferation and SMR licensing. Undergrads intern at Oak Ridge and Commonwealth Fusion Systems, positioning them to lead the renaissance in carbon-free baseload power and lifesaving imaging tech.
Monte Carlo neutron-transport model for molten-salt reactor core
Cask design using composite overpacks for spent-fuel logistics
SiC cladding irradiation-swelling experiment with ion beams
AI-assisted gamma-spectroscopy for rapid isotope identification
Boiling crisis visualization in high-flux thermal-hydraulic loop
Dose-tracking wearable for interventional radiologists
Plasma-facing material erosion study in compact tokamaks
Cyber-physical security framework for digital reactor I&C
Boron-nanoparticle neutron-capture therapy delivery system
Life-cycle CO₂ analysis comparing SMRs to combined-cycle gas plants
3-D printed neutron collimators for BNCT applications
Public-perception VR module debunking nuclear-waste myths
Thermoacoustic coolant pump proof-of-concept with no moving parts
Fast-spectrum microreactor for lunar surface power feasibility
Neutron-imaging technique for lithium battery quality control
Power the planet and protect health with advanced nuclear science.
Whether it's Machine Learning, Data Science, or Web Development, Collexa is here to support your academic journey.
"Collexa transformed my academic experience with their expert support and guidance."
Computer Science Student
Reach out to us for personalized academic assistance and take the next step towards success.
