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Paper detail

A self-stabilized coherent phonon source driven by optical forces

Optical forces can set tiny objects into states of coherent mechanical oscillation, also known as mechanical or phonon lasing. We present a novel pumping mechanism in an opto-mechanical photonic crystal that realizes mechanical lasing with relaxed requirements for the optical-mechanical modes and their inter-coupling. It derives from a spontaneously triggered thermal/free carrier self-pulsing and the anharmonic modulation of the radiation pressure force that comes as a consequence. Moreover, the feedback of the mechanics on the self-pulsing frequency-entrains both oscillators, creating a self-stabilized indecomposable system. A manifold of frequency-entrained regions with two different mechanical modes (at 54 and 122 MHz) 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 compatible platform, which enables its exploitation in sensing, intra-chip metrology or time-keeping applications.

preprint2014arXivOpen access
Daniel Navarro-UrriosNestor E. CapujJordi Gomis-BrescoFrancesc AlzinaAlessandro PitantiAmadeu GriolAlejandro MartinezClivia M. Sotomayor Torres
physics.optics
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Daniel Navarro-UrriosNestor E. CapujJordi Gomis-BrescoFrancesc AlzinaAlessandro PitantiAmadeu GriolAlejandro MartinezClivia M. Sotomayor Torres

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