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|a Klein, Dahlia Rivka
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|a Massachusetts Institute of Technology. Department of Physics
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|a MacNeill, David
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|a Lado, J. L.
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|a Soriano, D.
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|a Navarro-Moratalla, E.
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|a Watanabe, K.
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|a Taniguchi, T.
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|a Manni, S.
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|a Canfield, P.
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|a Fernandez-Rossier, J.
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|a Jarillo-Herrero, Pablo
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|a Probing magnetism in 2D van der Waals crystalline insulators via electron tunneling
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|b American Association for the Advancement of Science (AAAS),
|c 2019-06-17T19:52:43Z.
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|z Get fulltext
|u https://hdl.handle.net/1721.1/121333
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|a Magnetic insulators are a key resource for next-generation spintronic and topological devices. The family of layered metal halides promises varied magnetic states, including ultrathin insulating multiferroics, spin liquids, and ferromagnets, but device-oriented characterization methods are needed to unlock their potential. Here, we report tunneling through the layered magnetic insulator CrI₃ as a function of temperature and applied magnetic field.We electrically detect the magnetic ground state and interlayer coupling and observe a fieldinducedmetamagnetic transition.The metamagnetic transition results in magnetoresistances of 95, 300, and 550% for bilayer, trilayer, and tetralayer CrI₃ barriers, respectively.We further measure inelastic tunneling spectra for our junctions, unveiling a rich spectrum consistent with collective magnetic excitations (magnons) in CrI₃.
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|a Gordon and Betty Moore Foundation (Grant GBMF4541)
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