Synchronization of Optomechanical Nanobeams by Mechanical Interaction

M. F. Colombano; G. Arregui; N. E. Capuj; A. Pitanti; J. Maire; A. Griol; B. Garrido; A. Martinez; C. M. Sotomayor-Torres; D. Navarro-Urrios

doi:10.1103/PhysRevLett.123.017402

Synchronization of Optomechanical Nanobeams by Mechanical Interaction

M. F. Colombano, G. Arregui, N. E. Capuj, A. Pitanti, J. Maire, A. Griol, B. Garrido, A. Martinez, C. M. Sotomayor-Torres, D. Navarro-Urrios

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© 2019 American Physical Society. The synchronization of coupled oscillators is a phenomenon found throughout nature. Mechanical oscillators are paradigmatic examples, but synchronizing their nanoscaled versions is challenging. We report synchronization of the mechanical dynamics of a pair of optomechanical crystal cavities that, in contrast to previous works performed in similar objects, are intercoupled with a mechanical link and support independent optical modes. In this regime they oscillate in antiphase, which is in agreement with the predictions of our numerical model that considers reactive coupling. We also show how to temporarily disable synchronization of the coupled system by actuating one of the cavities with a heating laser, so that both cavities oscillate independently. Our results can be upscaled to more than two cavities and pave the way towards realizing integrated networks of synchronized mechanical oscillators.

Idioma original	Anglès
Número d’article	017402
Revista	Physical Review Letters
Volum	123
DOIs	https://doi.org/10.1103/PhysRevLett.123.017402
Estat de la publicació	Publicada - 1 de jul. 2019

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10.1103/PhysRevLett.123.017402

https://ddd.uab.cat/record/211649

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title = "Synchronization of Optomechanical Nanobeams by Mechanical Interaction",

abstract = "{\textcopyright} 2019 American Physical Society. The synchronization of coupled oscillators is a phenomenon found throughout nature. Mechanical oscillators are paradigmatic examples, but synchronizing their nanoscaled versions is challenging. We report synchronization of the mechanical dynamics of a pair of optomechanical crystal cavities that, in contrast to previous works performed in similar objects, are intercoupled with a mechanical link and support independent optical modes. In this regime they oscillate in antiphase, which is in agreement with the predictions of our numerical model that considers reactive coupling. We also show how to temporarily disable synchronization of the coupled system by actuating one of the cavities with a heating laser, so that both cavities oscillate independently. Our results can be upscaled to more than two cavities and pave the way towards realizing integrated networks of synchronized mechanical oscillators.",

author = "Colombano, \{M. F.\} and G. Arregui and Capuj, \{N. E.\} and A. Pitanti and J. Maire and A. Griol and B. Garrido and A. Martinez and Sotomayor-Torres, \{C. M.\} and D. Navarro-Urrios",

year = "2019",

month = jul,

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doi = "10.1103/PhysRevLett.123.017402",

language = "English",

volume = "123",

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TY - JOUR

T1 - Synchronization of Optomechanical Nanobeams by Mechanical Interaction

AU - Colombano, M. F.

AU - Arregui, G.

AU - Capuj, N. E.

AU - Pitanti, A.

AU - Maire, J.

AU - Griol, A.

AU - Garrido, B.

AU - Martinez, A.

AU - Sotomayor-Torres, C. M.

AU - Navarro-Urrios, D.

PY - 2019/7/1

Y1 - 2019/7/1

N2 - © 2019 American Physical Society. The synchronization of coupled oscillators is a phenomenon found throughout nature. Mechanical oscillators are paradigmatic examples, but synchronizing their nanoscaled versions is challenging. We report synchronization of the mechanical dynamics of a pair of optomechanical crystal cavities that, in contrast to previous works performed in similar objects, are intercoupled with a mechanical link and support independent optical modes. In this regime they oscillate in antiphase, which is in agreement with the predictions of our numerical model that considers reactive coupling. We also show how to temporarily disable synchronization of the coupled system by actuating one of the cavities with a heating laser, so that both cavities oscillate independently. Our results can be upscaled to more than two cavities and pave the way towards realizing integrated networks of synchronized mechanical oscillators.

AB - © 2019 American Physical Society. The synchronization of coupled oscillators is a phenomenon found throughout nature. Mechanical oscillators are paradigmatic examples, but synchronizing their nanoscaled versions is challenging. We report synchronization of the mechanical dynamics of a pair of optomechanical crystal cavities that, in contrast to previous works performed in similar objects, are intercoupled with a mechanical link and support independent optical modes. In this regime they oscillate in antiphase, which is in agreement with the predictions of our numerical model that considers reactive coupling. We also show how to temporarily disable synchronization of the coupled system by actuating one of the cavities with a heating laser, so that both cavities oscillate independently. Our results can be upscaled to more than two cavities and pave the way towards realizing integrated networks of synchronized mechanical oscillators.

UR - http://www.mendeley.com/research/synchronization-optomechanical-nanobeams-mechanical-interaction

UR - https://www.scopus.com/pages/publications/85068976149

U2 - 10.1103/PhysRevLett.123.017402

DO - 10.1103/PhysRevLett.123.017402

M3 - Article

C2 - 31386408

SN - 0031-9007

VL - 123

JO - Physical Review Letters

JF - Physical Review Letters

M1 - 017402

ER -

Synchronization of Optomechanical Nanobeams by Mechanical Interaction

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