The Duke PhD in Medical Physics pushes beyond the CAMPEP-accredited MS, empowering scholars to invent next-gen radiation therapies and imaging modalities. Candidates calibrate FLASH proton-beamlines, develop photon-counting cardiac CT systems, and craft AI QA engines that audit every fraction in real time. Cross-registration with Pratt School fosters hardware innovation, while health-policy tracks shape graduates into safety regulators and startup CTOs.
Monte-Carlo optimization of microbeam spatial-fractionated therapy
Deep-learning auto-segmentation of cardiac substructures for dose sparing
FLASH proton RBE modeling in hypoxic tumors
Photon-counting CT perfusion imaging of myocardial ischemia
Wearable real-time dosimeter for interventional fluoroscopy staff
Blockchain QA logbook for radiotherapy plan versions
VR training simulator for IGRT couch-shift workflows
Radiomics signature predicting immunotherapy response
Low-field MRI-linac adaptive planning algorithm
Neutron dose mapping in pediatric proton craniospinal fields
Open-source phantom design for AI algorithm benchmarking
Policy brief on AI device regulation in radiation oncology
Citizen-science radon exposure mapping via smartphone sensors
GPU-accelerated Monte-Carlo code for FLASH beam modelling
Interactive outreach exhibit explaining medical imaging physics
Invent safer, smarter radiation medicine with Duke’s Medical Physics doctorate.
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.
