Layer-selective spin-orbit coupling and strong correlation in bilayer graphene

Anna M Seiler; Yaroslav Zhumagulov; Klaus Zollner; Chiho Yoon; David Urbaniak; Fabian R Geisenhof; Kenji Watanabe; Takashi Taniguchi; Jaroslav Fabian; Fan Zhang; R Thomas Weitz

doi:10.1088/2053-1583/add74a

論文 Layer-selective spin-orbit coupling and strong correlation in bilayer graphene

Anna M Seiler ; Yaroslav Zhumagulov ; Klaus Zollner ; Chiho Yoon ; David Urbaniak ; Fabian R Geisenhof ; Kenji Watanabe (National Institute for Materials Science) ; Takashi Taniguchi (National Institute for Materials Science) ; Jaroslav Fabian ; Fan Zhang ; R Thomas Weitz

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Anna M Seiler, Yaroslav Zhumagulov, Klaus Zollner, Chiho Yoon, David Urbaniak, Fabian R Geisenhof, Kenji Watanabe, Takashi Taniguchi, Jaroslav Fabian, Fan Zhang, R Thomas Weitz. Layer-selective spin-orbit coupling and strong correlation in bilayer graphene. 2D Materials. 2025, 12 (3), 035009. https://doi.org/10.1088/2053-1583/add74a

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(abstract)

Spin-orbit coupling (SOC) and electron-electron interaction can mutually influence each other and giverise to a plethora of intriguing phenomena in condensed matter systems. In pristine bilayer graphene,which has weak SOC, intrinsic Lifshitz transitions and concomitant van Hove singularities lead to theemergence of many-body correlated phases. Layer-selective SOC can be proximity induced by addinga layer of tungsten diselenide (WSe2) on its one side. By applying an electric displacement field, thesystem can be tuned across a spectrum wherein electronic correlation, SOC, or a combination of bothdominates. Our investigations reveal an intricate phase diagram of proximity-induced SOC-selectivebilayer graphene. Not only does this phase diagram include those correlated phases reminiscent ofSOC-free doped bilayer graphene, but it also hosts unique SOC-induced states allowing a compellingmeasurement of valley g-factor and a seemingly impossible correlated insulator at charge neutrality,thereby showcasing the remarkable tunability of the interplay between interaction and SOC in WSe2enriched bilayer graphene.

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