Publication result detail

Tuning Plasmonic Coupling from Touching to Near-touching Nanodimers via Nanometric Gap Size and Morphology

Wu, Y.; Konecna, A.; Hum Cho, S.; Milliron, D.J.; Hachtel, J.A.; De Abajo, F.J.

Original Title

Tuning Plasmonic Coupling from Touching to Near-touching Nanodimers via Nanometric Gap Size and Morphology

English Title

Tuning Plasmonic Coupling from Touching to Near-touching Nanodimers via Nanometric Gap Size and Morphology

Type

Paper in proceedings (conference paper)

Original Abstract

We observe large tunability of hybridized plasmon modes by controlling the gap size and the dimensionality of the gap regions. We present electron energy-loss spectroscopy measurements and detailed theory supporting our results.

English abstract

We observe large tunability of hybridized plasmon modes by controlling the gap size and the dimensionality of the gap regions. We present electron energy-loss spectroscopy measurements and detailed theory supporting our results.

Keywords

Electron scattering; Energy dissipation; Morphology; Plasmonics

Key words in English

Electron scattering; Energy dissipation; Morphology; Plasmonics

Authors

Wu, Y.; Konecna, A.; Hum Cho, S.; Milliron, D.J.; Hachtel, J.A.; De Abajo, F.J.

RIV year

2024

Released

07.05.2023

ISBN

978-1-9571-7125-8

Book

2023 Conference on Lasers and Electro-Optics, CLEO 2023

Pages count

2

BibTex

@inproceedings{BUT187766,
  author="Wu, Y. and Konecna, A. and Hum Cho, S. and Milliron, D.J. and Hachtel, J.A. and De Abajo, F.J.",
  title="Tuning Plasmonic Coupling from Touching to Near-touching Nanodimers via Nanometric Gap Size and Morphology",
  booktitle="2023 Conference on Lasers and Electro-Optics, CLEO 2023",
  year="2023",
  pages="2",
  isbn="978-1-9571-7125-8"
}