Feb 24, 2023 9:45 am2386 views
It’s not easy to make sense of quantum-scale motion, but a new mathematical theory could help, providing insight into the various computing, electrochemical and biological systems. Chenghao Zhang, a physics graduate student at the University of Illinois Urbana-Champaign, and chemistry professor Martin Gruebele performed a computational analysis of the new mathematical theory developed by Rice University theorist Peter Wolynes and theoretical chemist David Logan at Oxford University. The theory gives a simple prediction for the threshold at which large quantum systems switch from orderly motion like a clock to random, erratic motion like asteroids moving around in the early solar system.