April 22 - 26, 2024
Seattle, Washington
May 7 - 9, 2024 (Virtual)
Symposium Supporters
2024 MRS Spring Meeting & Exhibit
QT02.10.03

Proximity Spin Interactions in 2D Materials and Correlated Phases

When and Where

Apr 25, 2024
3:45pm - 4:15pm
Room 421, Level 4, Summit

Presenter(s)

Co-Author(s)

Jaroslav Fabian1

University of Regensburg1

Abstract

Jaroslav Fabian1

University of Regensburg1
Graphene has weak spin-orbit coupling and no magnetic order. But when placed in contact with a strong spin-orbit coupling material, such as a TMDC, or a ferromagnet, such as Cr2Ge2Te6, Dirac electrons acquire strong spin-orbit or exchange coupling, respectively. Such proximity effects render graphene suitable for spintronic applications that require spin manipulation [1]. In addition, graphene with strong proximity spin interactions can host novel topological states [2]. Fascinating new phenomena appear when bilayer graphene gets encapsulated by a TMDC from one side, and a ferromagnet from another. The resulting, so called ex-so-tic structure [3], offers spin swap functionality: switching spin-orbit and exchange coupling on demand by the gate. In this talk, I will review the recent developments in the proximity phenomena in graphene, and present some recent theoretical results on the control of the proximity spin-orbit and exchange coupling by twisting the van der Waals layers. I will show that the signature proximity spin-orbit coupling in graphene---valley Zeeman coupling---can be efficiently tuned by the twist angle [4], and that proximity exchange coupling can be switched by the twist angle, and even morph from ferromagnetic to antiferromagnetic [5]. Finally, I will also discuss the emergence of new correlated phases in AB bilayer and ABC trilayer graphene [6] due to the presence of proximity spin-orbit and exchange couplings. Support from DFG SPP1244, SFB 1277, FLAGERA 2DSOTECH, and EU 2DSPINTECH is acknowledged.<br/>[1] J. Sierra et al, Nature Nanotechnology, 16, 856 (2021)<br/>[2] P. Högl et al, Phys. Rev. Lett. 124, 136403 (2020)<br/>[3] K. Zollner et al, Phys. Rev. Lett. 125, 196402 (2020)<br/>[4] T. Naimer et al, Phys. Rev. B 104, 195156 (2021)<br/>[5] K. Zollner and J. Fabian, Phys. Rev. Lett. 128, 106401 (2022)<br/>[6] Y. Zhumagulov et al, arXiv: arXiv:2305.14277, 2307.16025

Symposium Organizers

Zhong Lin, Binghamton University
Yunqiu Kelly Luo, University of Southern California
Andrew F. May, Oak Ridge National Laboratoryy
Dmitry Ovchinnikov, University of Kansas

Symposium Support

Silver
Thorlabs Bronze
Vacuum Technology Inc.

Session Chairs

Marco Gibertini
Yunqiu Kelly Luo

In this Session