Ultrastrong coupling between electron tunneling and mechanical motion

Florian Vigneau; Juliette Monsel; Jorge Tabanera; Kushagra Aggarwal; Léa Bresque; Federico Fedele; Federico Cerisola; G. A. D. Briggs; Janet Anders; Juan M. R. Parrondo; Alexia Auffèves; Natalia Ares

doi:10.1103/PhysRevResearch.4.043168

Physical Review Research (Dec 2022)

Ultrastrong coupling between electron tunneling and mechanical motion

Florian Vigneau,
Juliette Monsel,
Jorge Tabanera,
Kushagra Aggarwal,
Léa Bresque,
Federico Fedele,
Federico Cerisola,
G. A. D. Briggs,
Janet Anders,
Juan M. R. Parrondo,
Alexia Auffèves,
Natalia Ares

Affiliations

Florian Vigneau
Juliette Monsel
Jorge Tabanera
Kushagra Aggarwal
Léa Bresque
Federico Fedele
Federico Cerisola
G. A. D. Briggs
Janet Anders
Juan M. R. Parrondo
Alexia Auffèves
Natalia Ares

DOI: https://doi.org/10.1103/PhysRevResearch.4.043168
Journal volume & issue: Vol. 4, no. 4
p. 043168

Abstract

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The ultrastrong coupling of single-electron tunneling and nanomechanical motion opens exciting opportunities to explore fundamental questions and develop new platforms for quantum technologies. We have measured and modeled this electromechanical coupling in a fully suspended carbon nanotube device and report a ratio of g_{m}/ω_{m}=2.72±0.14, where g_{m}/2π=0.80±0.04GHz is the coupling strength and ω_{m}/2π=294.5MHz is the mechanical resonance frequency. This is well within the ultrastrong coupling regime and the highest among all other electromechanical platforms. We show that, although this regime was present in similar fully suspended carbon nanotube devices, it went unnoticed. Even higher ratios could be achieved with improvement on device design.

Published in Physical Review Research

ISSN: 2643-1564 (Online)
Publisher: American Physical Society
Country of publisher: United States
LCC subjects: Science: Physics
Website: https://journals.aps.org/prresearch/

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