We are broadly interested in understanding the fundamental behavior of spin in quantum materials, with a view toward discovering emergent phenomena and developing ‘spintronic’ technologies for processing, storing and transporting quantum information.
-
- Spin pumping from an insulating ferromagnet into helical Dirac states [Phys. Rev. Lett., 2016]
-
- MBE synthesis of topological insulators leads to topological spintronics [Nature, 2014]
-
- Giant magnetoresistance in quantum anomalous Hall insulator [Nature Communications, 2015]
-
- Research highlights
-
- Using universal conductance fluctuations to probe a topological phase transition [Nano Letters. 2023].