Proximity effect induced magnetism in graphene

Devashish Gopalan; Joe Seifert; Amanda Haglund; David Mandrus; Marek Skowronski; Benjamin Hunt

Proximity effect induced magnetism in graphene

ORAL

Abstract

Recent discovery of the 2D ferromagnetic insulators CrI₃, Cr₂Ge₂Te₆, and CrSiTe₃ has spurred research in 2D magnetic materials. Van der Waals heterostructures of these materials with graphene can induce a nonzero magnetization in graphene by proximity. This also preserves the intrinsically high mobility of graphene, since no magnetic impurities are introduced to the system. Here, we employ nonlocal magneto-transport measurements to detect a magnetic proximity effect in graphene. Enhancement of this nonlocal signal indicates long-range magnetic order in graphene and provides a stepping stone towards observation of the quantum anomalous Hall effect at elevated temperatures.

March 8, 2018, 9:36 AM – March 8, 2018, 9:48 AM

Presenters

Devashish Gopalan
- Carnegie Mellon University

Authors

Devashish Gopalan
- Carnegie Mellon University
Joe Seifert
- Carnegie Mellon University
Amanda Haglund
- University of Tennessee
- Materials Science and Engineering, The University of Tennessee
David Mandrus
- Department of Materials Science and Engineering, The University of Tennessee
- Oak Ridge National Lab
- Oak Ridge National Laboratory
- Department of Materials Science and Engineering, University of Tennessee
- University of Tennessee
- Materials Science and Technology, Oak Ridge National Laboratory
- Materials Science and Engineering, The University of Tennessee
- Materials Science and Engineering, University of Tennessee
- Material Science and Technology Division, Oak Ridge National Laboratory
- Oakridge National Laboratory
- University of Tennessee, Knoxville
- Univ of Tennessee, Knoxville
Marek Skowronski
- Carnegie Mellon University
Benjamin Hunt
- Carnegie Mellon University
- Massachusetts Inst of Tech-MIT
- Physics, Carnegie Mellon University