Experimental signatures of the transition from acoustic plasmon to electronic sound in graphene

David Barcons Ruiz; Niels C.H. Hesp; Hanan Herzig Sheinfux; Carlos Ramos Marimón; Curdin Martin Maissen; Alessandro Principi; Reza Asgari; Takashi Taniguchi; Kenji Watanabe; Marco Polini; Rainer Hillenbrand; Iacopo Torre; Frank H.L. Koppens

doi:https://doi.org/10.1126/SCIADV.ADI0415

Experimental signatures of the transition from acoustic plasmon to electronic sound in graphene

David Barcons Ruiz, Niels C.H. Hesp, Hanan Herzig Sheinfux, Carlos Ramos Marimón, Curdin Martin Maissen, Alessandro Principi, Reza Asgari, Takashi Taniguchi, Kenji Watanabe, Marco Polini, Rainer Hillenbrand, Iacopo Torre, Frank H.L. Koppens

Research output: Contribution to journal › Article › peer-review

Abstract

Fermi liquids respond differently to perturbations depending on whether their frequency is higher (collisionless regime) or lower (hydrodynamic regime) than the interparticle collision rate. This results in a different phase velocity between the collisionless zero sound and the hydrodynamic first sound. We performed terahertz photocurrent nanoscopy measurements on graphene devices, with a metallic gate close to the graphene layer, to probe the dispersion of propagating acoustic plasmons, the counterpart of sound modes in electronic Fermi liquids. We report the observation of a change in the plasmon phase velocity when the excitation frequency approaches the electron-electron collision rate that is compatible with the transition between the zero and the first sound mode.

Original language	English
Article number	eadi0415
Journal	Science Advances
Volume	9
Issue number	39
DOIs	https://doi.org/10.1126/SCIADV.ADI0415
State	Published - 29 Sep 2023
Externally published	Yes

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Ruiz, D. B., Hesp, N. C. H., Sheinfux, H. H., Marimón, C. R., Maissen, C. M., Principi, A., Asgari, R., Taniguchi, T., Watanabe, K., Polini, M., Hillenbrand, R., Torre, I., & Koppens, F. H. L. (2023). Experimental signatures of the transition from acoustic plasmon to electronic sound in graphene. Science Advances, 9(39), Article eadi0415. https://doi.org/10.1126/SCIADV.ADI0415

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title = "Experimental signatures of the transition from acoustic plasmon to electronic sound in graphene",

abstract = "Fermi liquids respond differently to perturbations depending on whether their frequency is higher (collisionless regime) or lower (hydrodynamic regime) than the interparticle collision rate. This results in a different phase velocity between the collisionless zero sound and the hydrodynamic first sound. We performed terahertz photocurrent nanoscopy measurements on graphene devices, with a metallic gate close to the graphene layer, to probe the dispersion of propagating acoustic plasmons, the counterpart of sound modes in electronic Fermi liquids. We report the observation of a change in the plasmon phase velocity when the excitation frequency approaches the electron-electron collision rate that is compatible with the transition between the zero and the first sound mode.",

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doi = "https://doi.org/10.1126/SCIADV.ADI0415",

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AU - Ruiz, David Barcons

AU - Hesp, Niels C.H.

AU - Sheinfux, Hanan Herzig

AU - Marimón, Carlos Ramos

AU - Maissen, Curdin Martin

AU - Principi, Alessandro

AU - Asgari, Reza

AU - Taniguchi, Takashi

AU - Watanabe, Kenji

AU - Polini, Marco

AU - Hillenbrand, Rainer

AU - Torre, Iacopo

AU - Koppens, Frank H.L.

PY - 2023/9/29

Y1 - 2023/9/29

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AB - Fermi liquids respond differently to perturbations depending on whether their frequency is higher (collisionless regime) or lower (hydrodynamic regime) than the interparticle collision rate. This results in a different phase velocity between the collisionless zero sound and the hydrodynamic first sound. We performed terahertz photocurrent nanoscopy measurements on graphene devices, with a metallic gate close to the graphene layer, to probe the dispersion of propagating acoustic plasmons, the counterpart of sound modes in electronic Fermi liquids. We report the observation of a change in the plasmon phase velocity when the excitation frequency approaches the electron-electron collision rate that is compatible with the transition between the zero and the first sound mode.

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DO - https://doi.org/10.1126/SCIADV.ADI0415

M3 - مقالة

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SN - 2375-2548

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JO - Science Advances

JF - Science Advances

IS - 39

M1 - eadi0415

ER -

Experimental signatures of the transition from acoustic plasmon to electronic sound in graphene

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