Dipanjan Mazumdar, former postdoc in the Musfeldt lab, now has a tenure-track position at Southern Illinois University Carbondale. He received a 2019 NSF CAREER Award for his work with thermal stability and scaling of nanoscale spin-electronic devices based on novel inverse-Heusler alloys.
“When I started my research career, I learned that one can combine ultrathin layers (nanoscale) of magnetic materials to act as a switch utilizing a subtle quantum physics effect called quantum tunneling,” Mazumdar said. “Essentially, in the classical world when we throw a ball onto a wall, it will always bounce back. Always. In the quantum world, however, there is a small chance that throwing quantum objects such as an electron onto a barrier (wall), the electron will end up on the other side of the barrier.”
Maumdar’s goal of this project is to make faster, smaller, energy-efficient magnetic nanoswitches.
“Surviving in academia is very difficult. Jan Musfeldt helped my career to stay afloat during a very difficult time,” Mazumdar said. “So this award (and any award/grant I receive in the future) is always going to be directly or indirectly related to the support I received from her at the UT Department of Chemistry.”