A self-stabilized coherent phonon source driven by optical forces

Daniel Navarro Urrios; Nestor Eduardo Capuj; Jordi Gomis-Bresco; Francesc Alzina; A. Pitanti; Amadeu Griol; Alejandro Martínez; Clivia M. Sotomayor Torres

doi:10.1038/srep15733

A self-stabilized coherent phonon source driven by optical forces

Daniel Navarro Urrios, Nestor Eduardo Capuj, Jordi Gomis-Bresco, Francesc Alzina, A. Pitanti, Amadeu Griol, Alejandro Martínez, Clivia M. Sotomayor Torres

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We report a novel injection scheme that allows for phonon lasing in a one-dimensional opto-mechanical photonic crystal, in a sideband unresolved regime and with cooperativity values as low as 10'2. It extracts energy from a cw infrared laser source and is based on the triggering of a thermo-optical/free-carrier-dispersion self-pulsing limit-cycle, which anharmonically modulates the radiation pressure force. The large amplitude of the coherent mechanical motion acts as a feedback that stabilizes and entrains the self-pulsing oscillations to simple fractions of the mechanical frequency. A manifold of frequency-entrained regions with two different mechanical modes (at 54 and 122MHz) are observed as a result of the wide tuneability of the natural frequency of the self-pulsing. The system operates at ambient conditions of pressure and temperature in a silicon platform, which enables its exploitation in sensing, intra-chip metrology or time-keeping applications.

Idioma original	Anglès
Revista	Scientific Reports
Volum	5
DOIs	https://doi.org/10.1038/srep15733
Estat de la publicació	Publicada - 2015

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10.1038/srep15733

https://ddd.uab.cat/record/204890

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title = "A self-stabilized coherent phonon source driven by optical forces",

abstract = "We report a novel injection scheme that allows for phonon lasing in a one-dimensional opto-mechanical photonic crystal, in a sideband unresolved regime and with cooperativity values as low as 10'2. It extracts energy from a cw infrared laser source and is based on the triggering of a thermo-optical/free-carrier-dispersion self-pulsing limit-cycle, which anharmonically modulates the radiation pressure force. The large amplitude of the coherent mechanical motion acts as a feedback that stabilizes and entrains the self-pulsing oscillations to simple fractions of the mechanical frequency. A manifold of frequency-entrained regions with two different mechanical modes (at 54 and 122MHz) are observed as a result of the wide tuneability of the natural frequency of the self-pulsing. The system operates at ambient conditions of pressure and temperature in a silicon platform, which enables its exploitation in sensing, intra-chip metrology or time-keeping applications.",

keywords = "Nanophotonics and plasmonics, Photoacoustics",

author = "{Navarro Urrios}, Daniel and Capuj, {Nestor Eduardo} and Jordi Gomis-Bresco and Francesc Alzina and A. Pitanti and Amadeu Griol and Alejandro Mart{\'i}nez and {Sotomayor Torres}, {Clivia M.}",

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doi = "10.1038/srep15733",

language = "English",

volume = "5",

journal = "Scientific Reports",

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T1 - A self-stabilized coherent phonon source driven by optical forces

AU - Navarro Urrios, Daniel

AU - Capuj, Nestor Eduardo

AU - Gomis-Bresco, Jordi

AU - Alzina, Francesc

AU - Pitanti, A.

AU - Griol, Amadeu

AU - Martínez, Alejandro

AU - Sotomayor Torres, Clivia M.

PY - 2015

Y1 - 2015

N2 - We report a novel injection scheme that allows for phonon lasing in a one-dimensional opto-mechanical photonic crystal, in a sideband unresolved regime and with cooperativity values as low as 10'2. It extracts energy from a cw infrared laser source and is based on the triggering of a thermo-optical/free-carrier-dispersion self-pulsing limit-cycle, which anharmonically modulates the radiation pressure force. The large amplitude of the coherent mechanical motion acts as a feedback that stabilizes and entrains the self-pulsing oscillations to simple fractions of the mechanical frequency. A manifold of frequency-entrained regions with two different mechanical modes (at 54 and 122MHz) are observed as a result of the wide tuneability of the natural frequency of the self-pulsing. The system operates at ambient conditions of pressure and temperature in a silicon platform, which enables its exploitation in sensing, intra-chip metrology or time-keeping applications.

AB - We report a novel injection scheme that allows for phonon lasing in a one-dimensional opto-mechanical photonic crystal, in a sideband unresolved regime and with cooperativity values as low as 10'2. It extracts energy from a cw infrared laser source and is based on the triggering of a thermo-optical/free-carrier-dispersion self-pulsing limit-cycle, which anharmonically modulates the radiation pressure force. The large amplitude of the coherent mechanical motion acts as a feedback that stabilizes and entrains the self-pulsing oscillations to simple fractions of the mechanical frequency. A manifold of frequency-entrained regions with two different mechanical modes (at 54 and 122MHz) are observed as a result of the wide tuneability of the natural frequency of the self-pulsing. The system operates at ambient conditions of pressure and temperature in a silicon platform, which enables its exploitation in sensing, intra-chip metrology or time-keeping applications.

KW - Nanophotonics and plasmonics

KW - Photoacoustics

U2 - 10.1038/srep15733

DO - 10.1038/srep15733

M3 - Article

C2 - 26503448

SN - 2045-2322

VL - 5

JO - Scientific Reports

JF - Scientific Reports

ER -

A self-stabilized coherent phonon source driven by optical forces

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