Physics

Understanding the mechanisms and mathematical models of radionuclide transport in groundwater, focusing on advection, dispersion, diffusion, and sorption.

Explore the impact, types, and mechanisms of radiation damage in crystals, crucial for technological applications in harsh environments.

Radiolabeled antibodies are cancer-targeting agents combining monoclonal antibodies with radioactive isotopes to deliver precise radiation treatment.

Radiotracer experiments in hydrodynamics provide visualizations and insights into fluid dynamics by tracking radioactive isotopes through fluid systems.

Radioisotope studies in forensic science use isotopic decay for dating materials and tracing origins in criminal investigations.

Learn how beta-backscatter thickness gauging uses radiation to measure material coatings non-destructively.

Learn about radio-labeled nanoparticles, advanced tools in nanotechnology for targeted drug delivery and precise diagnostic tracking in medicine.

An in-depth examination of radiochemical dating, focusing on its use of naturally occurring radioisotopes to date minerals and determine chronological sequences in geology, archaeology, and environmental science.

Explore the principles, effects, and optimizations of transonic flow in fluid mechanics, crucial for advancing high-speed aircraft design.

Learn the basics of safely handling radioisotopes, their uses, and fundamental safety principles including time, distance, and shielding.