The limits of near field immersion microwave microscopy evaluated by imaging bilayer graphene moiré patterns

Douglas A. A. Ohlberg; Diego Tami; Andreij C. Gadelha; Eliel G. S. Neto; Fabiano C. Santana; Daniel Miranda; Wellington Avelino; Kenji Watanabe; Takashi Taniguchi; Leonardo C. Campos; Jhonattan C. Ramirez; Cássio Gonçalves do Rego; Ado Jorio; Gilberto Medeiros-Ribeiro

doi:10.1038/s41467-021-23253-2

The limits of near field immersion microwave microscopy evaluated by imaging bilayer graphene moiré patterns

Douglas A. A. Ohlberg
, Diego Tami
, Andreij C. Gadelha
, Eliel G. S. Neto
, Fabiano C. Santana
, Daniel Miranda
, Wellington Avelino
, Kenji Watanabe
, Takashi Taniguchi
, Leonardo C. Campos
, Jhonattan C. Ramirez
, Cássio Gonçalves do Rego
, Ado Jorio
, Gilberto Medeiros-Ribeiro

Federal University of Minas Gerais

Publikation: Bidrag til tidsskrift › Tidsskriftartikel › Forskning › peer review

Abstract

Near field scanning Microwave Impedance Microscopy can resolve structures as small as 1 nm using radiation with wavelengths of 0.1 m. Combining liquid immersion microscopy concepts with exquisite force control exerted on nanoscale water menisci, concentration of electromagnetic fields in nanometer-size regions was achieved. As a test material we use twisted bilayer graphene, because it provides a sample where the modulation of the moiré superstructure pattern can be systematically tuned from Ångstroms up to tens of nanometers. Here we demonstrate that a probe-to-pattern resolution of 10 ⁸ can be obtained by analyzing and adjusting the tip-sample distance influence on the dynamics of water meniscus formation and stability.

Originalsprog	Engelsk
Artikelnummer	2980
Tidsskrift	Nature Communications
Vol/bind	12
ISSN	2041-1723
DOI	https://doi.org/10.1038/s41467-021-23253-2
Status	Udgivet - 20. maj 2021
Udgivet eksternt	Ja

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Citationsformater

Ohlberg, D. A. A., Tami, D., Gadelha, A. C., Neto, E. G. S., Santana, F. C., Miranda, D., Avelino, W., Watanabe, K., Taniguchi, T., Campos, L. C., Ramirez, J. C., do Rego, C. G., Jorio, A., & Medeiros-Ribeiro, G. (2021). The limits of near field immersion microwave microscopy evaluated by imaging bilayer graphene moiré patterns. Nature Communications, 12, Artikel 2980. https://doi.org/10.1038/s41467-021-23253-2

@article{c68a7848ea2640c9abc0e17387d3ba76,

title = "The limits of near field immersion microwave microscopy evaluated by imaging bilayer graphene moir{\'e} patterns",

abstract = "Near field scanning Microwave Impedance Microscopy can resolve structures as small as 1 nm using radiation with wavelengths of 0.1 m. Combining liquid immersion microscopy concepts with exquisite force control exerted on nanoscale water menisci, concentration of electromagnetic fields in nanometer-size regions was achieved. As a test material we use twisted bilayer graphene, because it provides a sample where the modulation of the moir{\'e} superstructure pattern can be systematically tuned from {\AA}ngstroms up to tens of nanometers. Here we demonstrate that a probe-to-pattern resolution of 10 8 can be obtained by analyzing and adjusting the tip-sample distance influence on the dynamics of water meniscus formation and stability.",

author = "Ohlberg, \{Douglas A. A.\} and Diego Tami and Gadelha, \{Andreij C.\} and Neto, \{Eliel G. S.\} and Santana, \{Fabiano C.\} and Daniel Miranda and Wellington Avelino and Kenji Watanabe and Takashi Taniguchi and Campos, \{Leonardo C.\} and Ramirez, \{Jhonattan C.\} and \{do Rego\}, \{C{\'a}ssio Gon{\c c}alves\} and Ado Jorio and Gilberto Medeiros-Ribeiro",

year = "2021",

month = may,

day = "20",

doi = "10.1038/s41467-021-23253-2",

language = "English",

volume = "12",

journal = "Nature Communications",

issn = "2041-1723",

publisher = "Nature Research",

}

Ohlberg, DAA, Tami, D, Gadelha, AC, Neto, EGS, Santana, FC, Miranda, D, Avelino, W, Watanabe, K, Taniguchi, T, Campos, LC, Ramirez, JC, do Rego, CG, Jorio, A & Medeiros-Ribeiro, G 2021, 'The limits of near field immersion microwave microscopy evaluated by imaging bilayer graphene moiré patterns', Nature Communications, bind 12, 2980. https://doi.org/10.1038/s41467-021-23253-2

TY - JOUR

T1 - The limits of near field immersion microwave microscopy evaluated by imaging bilayer graphene moiré patterns

AU - Ohlberg, Douglas A. A.

AU - Tami, Diego

AU - Gadelha, Andreij C.

AU - Neto, Eliel G. S.

AU - Santana, Fabiano C.

AU - Miranda, Daniel

AU - Avelino, Wellington

AU - Watanabe, Kenji

AU - Taniguchi, Takashi

AU - Campos, Leonardo C.

AU - Ramirez, Jhonattan C.

AU - do Rego, Cássio Gonçalves

AU - Jorio, Ado

AU - Medeiros-Ribeiro, Gilberto

PY - 2021/5/20

Y1 - 2021/5/20

N2 - Near field scanning Microwave Impedance Microscopy can resolve structures as small as 1 nm using radiation with wavelengths of 0.1 m. Combining liquid immersion microscopy concepts with exquisite force control exerted on nanoscale water menisci, concentration of electromagnetic fields in nanometer-size regions was achieved. As a test material we use twisted bilayer graphene, because it provides a sample where the modulation of the moiré superstructure pattern can be systematically tuned from Ångstroms up to tens of nanometers. Here we demonstrate that a probe-to-pattern resolution of 10 8 can be obtained by analyzing and adjusting the tip-sample distance influence on the dynamics of water meniscus formation and stability.

AB - Near field scanning Microwave Impedance Microscopy can resolve structures as small as 1 nm using radiation with wavelengths of 0.1 m. Combining liquid immersion microscopy concepts with exquisite force control exerted on nanoscale water menisci, concentration of electromagnetic fields in nanometer-size regions was achieved. As a test material we use twisted bilayer graphene, because it provides a sample where the modulation of the moiré superstructure pattern can be systematically tuned from Ångstroms up to tens of nanometers. Here we demonstrate that a probe-to-pattern resolution of 10 8 can be obtained by analyzing and adjusting the tip-sample distance influence on the dynamics of water meniscus formation and stability.

UR - https://doi.org/10.1038/s41467-021-23253-2

U2 - 10.1038/s41467-021-23253-2

DO - 10.1038/s41467-021-23253-2

M3 - Journal article

C2 - 34016995

SN - 2041-1723

VL - 12

JO - Nature Communications

JF - Nature Communications

M1 - 2980

ER -

The limits of near field immersion microwave microscopy evaluated by imaging bilayer graphene moiré patterns

Abstract

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