From how to capture CO2 in the atmosphere to how to deliver lifesaving drugs, scientists can answer a variety of questions by studying the movement of nanoparticles. Early last month, University ...

Modeling random motion may sound like an oxymoron. But Associate Professor of Physics Jay Tang is using the predictability of randomness to explain the movement of bacteria swimming in water. His work ...

Brownian motion in the presence of magnetic fields and under non-Markovian dynamics lies at a critical intersection of statistical physics and applied mathematics. This field examines how charged ...