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. 2023 Dec;18(12):1409-1415.
doi: 10.1038/s41565-023-01488-y. Epub 2023 Aug 21.

Infrared nano-imaging of Dirac magnetoexcitons in graphene

Michael Dapolito  1   2 Makoto Tsuneto  1 Wenjun Zheng  1 Lukas Wehmeier  1   3 Suheng Xu  2 Xinzhong Chen  1   2 Jiacheng Sun  1 Zengyi Du  1 Yinming Shao  2 Ran Jing  2 Shuai Zhang  2 Adrien Bercher  4 Yinan Dong  2 Dorri Halbertal  2 Vibhu Ravindran  1   5 Zijian Zhou  1 Mila Petrovic  1 Adrian Gozar  6   7 G L Carr  3 Qiang Li  1   8 Alexey B Kuzmenko  4 Michael M Fogler  9 D N Basov  10 Xu Du  11 Mengkun Liu  12   13
Affiliations
Free article

Infrared nano-imaging of Dirac magnetoexcitons in graphene

Michael Dapolito et al. Nat Nanotechnol. 2023 Dec.
Free article

Erratum in

  • Author Correction: Infrared nano-imaging of Dirac magnetoexcitons in graphene.
    Dapolito M, Tsuneto M, Zheng W, Wehmeier L, Xu S, Chen X, Sun J, Du Z, Shao Y, Jing R, Zhang S, Bercher A, Dong Y, Halbertal D, Ravindran V, Zhou Z, Petrovic M, Gozar A, Carr GL, Li Q, Kuzmenko AB, Fogler MM, Basov DN, Du X, Liu M. Dapolito M, et al. Nat Nanotechnol. 2023 Dec;18(12):1516. doi: 10.1038/s41565-023-01569-y. Nat Nanotechnol. 2023. PMID: 37978329 No abstract available.

Abstract

Magnetic fields can have profound effects on the motion of electrons in quantum materials. Two-dimensional electron systems subject to strong magnetic fields are expected to exhibit quantized Hall conductivity, chiral edge currents and distinctive collective modes referred to as magnetoplasmons and magnetoexcitons. Generating these propagating collective modes in charge-neutral samples and imaging them at their native nanometre length scales have thus far been experimentally elusive. Here we visualize propagating magnetoexciton polaritons at their native length scales and report their magnetic-field-tunable dispersion in near-charge-neutral graphene. Imaging these collective modes and their associated nano-electro-optical responses allows us to identify polariton-modulated optical and photo-thermal electric effects at the sample edges, which are the most pronounced near charge neutrality. Our work is enabled by innovations in cryogenic near-field optical microscopy techniques that allow for the nano-imaging of the near-field responses of two-dimensional materials under magnetic fields up to 7 T. This nano-magneto-optics approach allows us to explore and manipulate magnetopolaritons in specimens with low carrier doping via harnessing high magnetic fields.

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