Magnetic properties of materials ranging from conventional ferromagnetic metals to strongly correlated materials such as cuprates originate from Coulomb exchange interactions. The existence of alternate mechanisms for magnetism that could naturally facilitate electrical control has been discussed theoretically<sup>1-7</sup>, but an experimental demonstration<sup>8</sup> in an extended system has been missing. Here we investigate MoSe<sub>2</sub>/WS<sub>2</sub> van der Waals heterostructures in the vicinity of Mott insulator states of electrons forming a frustrated triangular lattice and observe direct evidence of magnetic correlations originating from a kinetic mechanism. By directly measuring electronic magnetization through the strength of the polarization-selective attractive polaron resonance<sup>9,10</sup>, we find that when the Mott state is electron-doped, the system exhibits ferromagnetic correlations in agreement with the Nagaoka mechanism.
Borislav Polovnikov, Johannes Scherzer, Subhradeep Misra, Henning Schlömer, Julian Trapp, Xin Huang, Christian Mohl, Zhijie Li, Jonas Göser, Jonathan Förste, Ismail Bilgin, Kenji Watanabe, Takashi Taniguchi, Annabelle Bohrdt, Fabian Grusdt, Anvar S. Baimuratov, Alexander Högele
Johannes Scherzer, Lukas Lackner, Bo Han, Borislav Polovnikov, Lukas Husel, Jonas Göser, Zhijie Li, Jens-Christian Drawer, Martin Esmann, Christoph Bennenhei, Falk Eilenberger, Kenji Watanabe, Takashi Taniguchi, Anvar S. Baimuratov, Christian Schneider, Alexander Högele
Fengrui Yao, Dario Rossi, Ivo A. Gabrovski, Volodymyr Multian, Nelson Hua, Kenji Watanabe, Takashi Taniguchi, Marco Gibertini, Ignacio Gutiérrez‐Lezama, Louk Rademaker, Alberto F. Morpurgo
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