Phys Rev Lett. 2006 Sep 15;97(11):110602. doi: 10.1103/PhysRevLett.97.110602. Epub 2006 Sep 12.

Supernarrow spectral peaks near a kinetic phase transition in a driven nonlinear micromechanical oscillator.

Physical review letters

C Stambaugh, H B Chan

PMID: 17025873 DOI: 10.1103/PhysRevLett.97.110602

Abstract

We measure the spectral densities of fluctuations of an underdamped nonlinear micromechanical oscillator. By applying a sufficiently large periodic excitation, two stable dynamical states are obtained within a particular range of driving frequency. White noise is injected into the excitation, allowing the system to overcome the activation barrier and switch between the two states. While the oscillator predominately resides in one of the two states for most frequencies, a narrow range of frequencies exist where the occupations of the two states are approximately equal. At these frequencies, the oscillator undergoes a kinetic phase transition that resembles the phase transition of thermal equilibrium systems. We observe a supernarrow peak in the spectral densities of fluctuations of the oscillator. This peak is centered at the excitation frequency and arises as a result of noise-induced transitions between the two dynamical states.

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• Journal Article