Ferromagnetism in rhombohedral graphene, Part I

Trevor B Arp; Owen I Sheekey; Caitlin L Patterson; Ludwig Holleis; Jin Ming Koh; Youngjoon Choi; Evgeny Redekop; Tian Xie; Siyuan Xu; Takashi Taniguchi; Kenji Watanabe; Martin E Huber; Etienne Lantagne-Hurtubise; Jason F Alicea; Chenhao Jin; Andrea F Young

Ferromagnetism in rhombohedral graphene, Part I

ORAL

Abstract

Rhombohedral graphene multilayers host ferromagnetism and superconductivity when the fermi level is tuned to saddle-point van Hove singularities near the band edge. Recently, new superconducting pockets were observed in rhombohedral bi-, tri-, and tetralayer samples with enhanced spin-orbit coupling induced by a transition metal dichalcogenide substrate, raising the question of the role of the spin degree of freedom in superconductivity. We use high resolution nanoSQUID-on-tip (nSOT) magnetometry to explore the nature of spin ferromagnetism in rhombohedral trilayer graphene supported by WSe2 for both strong and weak proximity induced spin orbit coupling. Focusing on the spin polarized half metal phase hosting enhanced superconductivity, we use the spatial pattern of the fringe magnetic fields as a signature of in- and out-of-plane spin polarization. We find the spin moments to be isotropic for weak spin orbit coupling; however, the out-of-plane spin polarization is strongly suppressed when Ising spin orbit coupling is strong. Instead, the half metal phase shows a remnant in-plane magnetic polarization, as predicted for a 'canted' ferromagnetic phase arising from the interplay of spin orbit coupling and the ferromagnetic intervalley Hund's coupling. We discuss the implications for the nature and origin of the superconducting state observed in this regime. (Part 1 or 2)

March 18, 2025, 6:00 PM – March 18, 2025, 6:12 PM

Publication: arXiv:2408.10190

Presenters

Trevor B Arp

University of California, Santa Barbara

Authors

Trevor B Arp

University of California, Santa Barbara
Owen I Sheekey

University of California, Santa Barbara
Caitlin L Patterson

University of California, Santa Barbara
Ludwig Holleis

University of California Santa Barbara, University of California, Santa Barbara
Jin Ming Koh

A*STAR Quantum Innovation Centre (Q.InC), Institute of High Performance Computing (IHPC), Agency for Science, Technology and Research (A*STAR), Singapore, Harvard University, Caltech
Youngjoon Choi

University of California Santa Barbara, University of California at Santa Barbara
Evgeny Redekop

University of California, Santa Barbara
Tian Xie

University of California, Santa Barbara
Siyuan Xu

UCSB, University of California, Santa Barbara, University of California Santa Barbara
Takashi Taniguchi

National Institute for Materials Science, International Center for Materials Nanoarchitectonics, National Institute for Materials Science, Research Center for Materials Nanoarchitectonics, National Institute for Materials Science, 1-1 Namiki, Tsukuba 305-0044, Japan, International Center for Materials Nanoarchitectonics, National Institute of Material Science, Tsukuba, Japan, Advanced Materials Laboratory, National Institute for Materials Science
Kenji Watanabe

National Institute for Materials Science, NIMS, Research Center for Functional Materials, National Institute for Materials Science, Research Center for Electronic and Optical Materials, National Institute for Materials Science, 1-1 Namiki, Tsukuba 305-0044, Japan, Research Center for Functional Materials, National Institute of Material Science, Tsukuba, Japan, National Institute of Materials Science, Advanced Materials Laboratory, National Institute for Materials Science
Martin E Huber

University of Colorado, Denver
Etienne Lantagne-Hurtubise

Caltech
Jason F Alicea

Caltech
Chenhao Jin

University of California, Santa Barbara, Cornell University, University of California at Santa Barbara
Andrea F Young

University of California, Santa Barbara, University of California Santa Barbara, University of California at Santa Barbara